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initial buildroot for linux 5.15

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This commit is contained in:
Huan.Feng
2021-12-06 14:12:13 +08:00
parent d7767d594e
commit 7b6fc358fa
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board/aarch64-efi/genimage-efi.cfg
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image efi-part.vfat {
vfat {
file EFI {
image = "efi-part/EFI"
}
file Image {
image = "Image"
}
}
size = 32M
}
image disk.img {
hdimage {
gpt = true
}
partition boot {
image = "efi-part.vfat"
partition-type-uuid = c12a7328-f81f-11d2-ba4b-00a0c93ec93b
offset = 32K
bootable = true
}
partition root {
partition-type-uuid = b921b045-1df0-41c3-af44-4c6f280d3fae
image = "rootfs.ext2"
}
}
board/aarch64-efi/grub.cfg
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set default="0"
set timeout="5"
menuentry "Buildroot" {
linux /Image root=PARTLABEL=root rootwait
}
board/aarch64-efi/post-image.sh
Executable
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#!/bin/sh
BOARD_DIR="$(dirname $0)"
cp -f ${BOARD_DIR}/grub.cfg ${BINARIES_DIR}/efi-part/EFI/BOOT/grub.cfg
board/aarch64-efi/readme.txt
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The aarch64_efi_defconfig allows to build a minimal Linux system that
can boot on all AArch64 servers providing an EFI firmware.
This includes all Arm EBBR[1] compliant systems, and all Arm SystemReady[2]
compliant systems for example.
Building and booting
====================
$ make aarch64_efi_defconfig
$ make
The file output/images/disk.img is a complete disk image that can be
booted, it includes the grub2 bootloader, Linux kernel and root
filesystem.
Testing under Qemu
==================
This image can also be tested using Qemu:
qemu-system-aarch64 \
-M virt \
-cpu cortex-a57 \
-m 512 \
-nographic \
-bios </path/to/QEMU_EFI.fd> \
-drive file=output/images/disk.img,if=none,format=raw,id=hd0 \
-device virtio-blk-device,drive=hd0 \
-netdev user,id=eth0 \
-device virtio-net-device,netdev=eth0
Note that </path/to/QEMU_EFI.fd> needs to point to a valid aarch64 UEFI
firmware image for qemu.
It may be provided by your distribution as a edk2-aarch64 or AAVMF
package, in path such as /usr/share/edk2/aarch64/QEMU_EFI.fd .
U-Boot based qemu firmware
==========================
A qemu firmware with support for UEFI based on U-Boot can be built following
the instructions in [3], with qemu_arm64_defconfig.
This should give you a nor_flash.bin, which you can use with qemu as an
alternative to QEMU_EFI.fd. You will also need to change the machine
specification to "-M virt,secure" on qemu command line, to enable TrustZone
support, and you will need to increase the memory with "-m 1024".
[1]: https://github.com/ARM-software/ebbr
[2]: https://developer.arm.com/architectures/system-architectures/arm-systemready
[3]: https://github.com/glikely/u-boot-tfa-build
board/acmesystems/acqua-a5/at91-sama5d3_acqua.dts
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/*
* acme-acqua.dts - Device Tree file for Acqua A5 Board
*
* Copyright (C) 2014 Atmel,
* 2014 Nicolas Ferre <nicolas.ferre@atmel.com>
*
* 2020 Sergio Tanzilli <tanzilli@acmesystems.it>
*
* Licensed under GPLv2 or later.
*/
/dts-v1/;
#include "sama5d31.dtsi"
/ {
model = "Acme Systems Acqua SOM";
compatible = "acme,acqua", "atmel,sama5d3", "atmel,sama5";
chosen {
stdout-path = "serial0:115200n8";
bootargs = "mem=256M console=ttyS0,115200 root=/dev/mmcblk0p2 rootfstype=ext4 rw rootwait consoleblank=0";
};
memory {
reg = <0x20000000 0x10000000>;
};
clocks {
slow_xtal {
clock-frequency = <32768>;
};
main_xtal {
clock-frequency = <12000000>;
};
};
ahb {
apb {
hlcdc: hlcdc@f0030000 {
status = "disabled";
hlcdc-display-controller {
pinctrl-names = "default";
pinctrl-0 = <&pinctrl_lcd_base &pinctrl_lcd_rgb888_alt>;
port@0 {
hlcdc_panel_output: endpoint@0 {
remote-endpoint = <&panel_input>;
};
};
};
};
/* MicroSD mounted on the SOM */
mmc0: mmc@f0000000 {
pinctrl-0 = <&pinctrl_mmc0_clk_cmd_dat0 &pinctrl_mmc0_dat1_3 &pinctrl_mmc0_cd>;
status = "okay";
slot@0 {
reg = <0>;
bus-width = <4>;
};
};
/* Optional MicroSD to mount on the carrier board */
mmc1: mmc@f8000000 {
pinctrl-0 = <&pinctrl_mmc1_clk_cmd_dat0 &pinctrl_mmc1_dat1_3 &pinctrl_mmc1_cd>;
status = "disabled";
slot@0 {
reg = <0>;
bus-width = <4>;
cd-gpios = <&pioE 1 GPIO_ACTIVE_LOW>;
};
};
spi0: spi@f0004000 {
cs-gpios = <&pioD 13 0>, <0>, <0>, <&pioD 16 0>;
status = "disabled";
};
can0: can@f000c000 {
status = "disabled";
};
tcb0: timer@f0010000 {
timer0: timer@0 {
compatible = "atmel,tcb-timer";
reg = <0>;
};
timer1: timer@1 {
compatible = "atmel,tcb-timer";
reg = <1>;
};
};
i2c0: i2c@f0014000 {
pinctrl-0 = <&pinctrl_i2c0_pu>;
status = "disabled";
};
i2c1: i2c@f0018000 {
status = "disabled";
};
macb1: ethernet@f802c000 {
compatible = "atmel,sama5d3-macb", "cdns,at91sam9260-macb", "cdns,macb";
status = "okay";
phy-mode = "rmii";
#address-cells = <1>;
#size-cells = <0>;
nvmem-cells = <&eth0_addr>;
nvmem-cell-names = "mac-address";
phy0: ethernet-phy@1 {
interrupt-parent = <&pioE>;
interrupts = <30 IRQ_TYPE_EDGE_FALLING>;
reg = <1>;
};
/*ethernet-phy@1 {
reg = <0x1>;
};*/
};
/* Bit banging internal I2C to manage the AT24MAC402 chip */
i2c3@ {
compatible = "i2c-gpio";
gpios = <&pioE 1 0 /* SDA */
&pioE 2 0 /* SCK */
>;
i2c-gpio,delay-us = <4>; /* ~178 kHz */
#address-cells = <1>;
#size-cells = <0>;
/* EEPROM contains the eth0 MAC address */
eeprom@58 {
compatible = "atmel,24mac402";
pagesize = <256>;
read-only;
reg = <0x58>;
#address-cells = <1>;
#size-cells = <1>;
eth0_addr: eth-mac-addr@9A {
reg = <0x0 0x06>;
};
};
};
pwm0: pwm@f002c000 {
pinctrl-names = "default";
pinctrl-0 = <&pinctrl_pwm0_pwmh0_0 &pinctrl_pwm0_pwmh1_0>;
status = "disabled";
};
usart0: serial@f001c000 {
status = "okay";
};
usart1: serial@f0020000 {
pinctrl-0 = <&pinctrl_usart1 &pinctrl_usart1_rts_cts>;
status = "disabled";
};
uart0: serial@f0024000 {
status = "disabled";
};
spi1: spi@f8008000 {
cs-gpios = <&pioC 25 0>;
status = "disabled";
};
adc0: adc@f8018000 {
atmel,adc-vref = <3300>;
atmel,adc-channels-used = <0xfe>;
pinctrl-0 = <
&pinctrl_adc0_adtrg
&pinctrl_adc0_ad1
&pinctrl_adc0_ad2
&pinctrl_adc0_ad3
&pinctrl_adc0_ad4
&pinctrl_adc0_ad5
&pinctrl_adc0_ad6
&pinctrl_adc0_ad7
>;
status = "disabled";
};
i2c2: i2c@f801c000 {
dmas = <0>, <0>; /* Do not use DMA for i2c2 */
pinctrl-0 = <&pinctrl_i2c2_pu>;
status = "disabled";
};
dbgu: serial@ffffee00 {
status = "okay";
};
pinctrl@fffff200 {
board {
pinctrl_i2c0_pu: i2c0_pu {
atmel,pins =
<AT91_PIOA 30 AT91_PERIPH_A AT91_PINCTRL_PULL_UP>,
<AT91_PIOA 31 AT91_PERIPH_A AT91_PINCTRL_PULL_UP>;
};
pinctrl_i2c2_pu: i2c2_pu {
atmel,pins =
<AT91_PIOA 18 AT91_PERIPH_B AT91_PINCTRL_PULL_UP>,
<AT91_PIOA 19 AT91_PERIPH_B AT91_PINCTRL_PULL_UP>;
};
pinctrl_key_gpio: key_gpio_0 {
atmel,pins =
<AT91_PIOE 29 AT91_PERIPH_GPIO AT91_PINCTRL_PULL_UP_DEGLITCH>;
};
pinctrl_mmc0_cd: mmc0_cd {
atmel,pins =
<AT91_PIOE 0 AT91_PERIPH_GPIO AT91_PINCTRL_PULL_UP_DEGLITCH>;
};
pinctrl_mmc1_cd: mmc1_cd {
atmel,pins =
<AT91_PIOE 1 AT91_PERIPH_GPIO AT91_PINCTRL_PULL_UP_DEGLITCH>;
};
pinctrl_usba_vbus: usba_vbus {
atmel,pins =
<AT91_PIOE 9 AT91_PERIPH_GPIO AT91_PINCTRL_DEGLITCH>; /* PE9, conflicts with A9 */
};
};
};
};
usb0: gadget@500000 {
status = "okay";
};
usb1: ohci@600000 {
status = "okay";
};
usb2: ehci@700000 {
status = "okay";
};
};
panel: panel {
/* compatible = "acme,43inch", "simple-panel"; */
compatible = "acme,50inch", "simple-panel";
/* compatible = "acme,70inch", "simple-panel"; */
status = "disable"
port@0 {
panel_input: endpoint@0 {
remote-endpoint = <&hlcdc_panel_output>;
};
};
};
leds {
compatible = "gpio-leds";
led0 {
label = "led0";
gpios = <&pioE 3 GPIO_ACTIVE_LOW>;
default-state = "off";
};
led1 {
label = "led1";
gpios = <&pioE 4 GPIO_ACTIVE_LOW>;
default-state = "off";
};
led2 {
label = "led2";
gpios = <&pioE 5 GPIO_ACTIVE_LOW>;
linux,default-trigger = "heartbeat";
};
led3 {
label = "led3";
gpios = <&pioE 6 GPIO_ACTIVE_LOW>;
linux,default-trigger = "mmc0";
default-state = "off";
};
};
};
board/acmesystems/acqua-a5/genimage.cfg
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# Minimal SD card image for the Acme Systems Acqua A5
image boot.vfat {
vfat {
files = {
"boot.bin",
"zImage",
"at91-sama5d3_acqua.dtb"
}
}
size = 16M
}
image sdcard.img {
hdimage {
}
partition boot {
partition-type = 0xC
bootable = "true"
image = "boot.vfat"
}
partition rootfs {
partition-type = 0x83
image = "rootfs.ext4"
}
}
board/acmesystems/acqua-a5/readme.txt
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Acme Systems Acqua A5
Intro
=====
The Acqua A5 is a system on module based on the Microchip SAMA5D31 SoC:
https://www.acmesystems.it/acqua
The files here support configurations that build a microSD image for a
minimal system that can be accessed through the serial console. You will
need an USB-to-serial interface in order to access that console from
your computer:
https://www.acmesystems.it/DPI
How to build the image
======================
If you have an Acqua module with 256 MiB of RAM, type:
$ make acmesystems_acqua_a5_256mb_defconfig
If you have the 512 MiB version, type instead:
$ make acmesystems_acqua_a5_512mb_defconfig
You can optionally tweak the configuration and add packages by typing:
$ make menuconfig
Then, proceed with the build:
$ make
How to write the microSD card
=============================
The system image is the file "sdcard.img" in the "output/images"
directory. Write it to the card by invoking:
$ sudo dd if=output/images/sdcard.img of=/dev/sdX bs=1M
where `sdX' is the block device representing the microSD card.
board/acmesystems/aria-g25/genimage.cfg
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# Minimal SD card image for the Acmesystems Aria G25
image boot.vfat {
vfat {
file zImage {
image = "zImage"
}
file at91-ariag25.dtb {
image = "at91-ariag25.dtb"
}
file boot.bin {
image = "at91sam9x5_aria-sdcardboot-linux-zimage-dt-3.10.3.bin"
}
}
size = 16M
}
image sdcard.img {
hdimage {
}
partition boot {
partition-type = 0xC
bootable = "true"
image = "boot.vfat"
}
partition rootfs {
partition-type = 0x83
image = "rootfs.ext4"
size = 512M
}
}
board/acmesystems/aria-g25/readme.txt
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Acme Systems Aria G25
Build instructions
==================
To build an image for the Aria G25 choose the configuration
corresponding to the Aria variant.
For 128MB RAM variant type:
$ make acmesystems_aria_g25_128mb_defconfig
else for 256MB RAM variant type:
$ make acmesystems_aria_g25_256mb_defconfig
To customize the configuration choosed type:
$ make menuconfig
When you are ready to start building Buildroot type:
$ make
How to write the microSD card
=============================
Once the build process is finished you will have an image called
"sdcard.img" in the output/images/ directory.
Write the bootable SD card image "sdcard.img" onto an SD card with
"dd" command:
$ sudo dd if=output/images/sdcard.img of=/dev/sdX
Assuming your Aria G25 baseboard has a MicroSD socket, for example
with the Terra baseboard, insert the microSD card into the baseboard
slot and power it.
To get the kernel log messages you can use a DPI cable
(http://www.acmesystems.it/DPI)
You can find additional informations, tutorials and a very
comprehensive documentation on http://www.acmesystems.it/aria.
board/acmesystems/arietta-g25/genimage.cfg
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# Minimal SD card image for the Acmesystems Arietta G25
image boot.vfat {
vfat {
file zImage {
image = "zImage"
}
file acme-arietta.dtb {
image = "at91-ariettag25.dtb"
}
file boot.bin {
image = "at91sam9x5_arietta-sdcardboot-linux-zimage-dt-3.10.3.bin"
}
}
size = 16M
}
image sdcard.img {
hdimage {
}
partition boot {
partition-type = 0xC
bootable = "true"
image = "boot.vfat"
}
partition rootfs {
partition-type = 0x83
image = "rootfs.ext4"
size = 512M
}
}
board/acmesystems/arietta-g25/readme.txt
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Acme Systems Arietta G25
Intro
=====
This default configuration will allow you to start experimenting with the
buildroot environment for the Arietta G25. With the current configuration
it will bring-up the board, and allow access through the serial console.
You can find additional informations, tutorials and a very comprehensive
documentation on http://www.acmesystems.it/arietta.
Build instructions
==================
To build an image for the Arietta G25 choose the configuration
corresponding to the Arietta variant.
For 128MB RAM variant type:
$ make acmesystems_arietta_g25_128mb_defconfig
else for 256MB RAM variant type:
$ make acmesystems_arietta_g25_256mb_defconfig
To customize the configuration chosen type:
$ make menuconfig
When you are ready to start building Buildroot type:
$ make
How to write the microSD card
=============================
Once the build process is finished you will have an image called "sdcard.img"
in the output/images/ directory.
Copy the bootable "sdcard.img" onto an SD card with "dd":
$ sudo dd if=output/images/sdcard.img of=/dev/sdX
Insert the microSD card into the Arietta slot and power it.
The image just built is fairly basic and the only output
you will get is on serial console, please consider to use a DPI
cable (http://www.acmesystems.it/DPI)
board/altera/socrates_cyclone5/boot-env.txt
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linux_load_address=0x100000
linux_dtb_load_address=0x100
linux_dtb=socfpga_cyclone5_socrates.dtb
linux_load=mmc rescan; fatload mmc 0:1 ${linux_load_address} zImage; fatload mmc 0:1 ${linux_dtb_load_address} ${linux_dtb}
bootargs=console=ttyS0,115200 root=/dev/mmcblk0p3 ro rootwait
source_env=fatload mmc 0:1 0x2000000 boot.scr; source 0x2000000
bootcmd=run linux_load; bootz ${linux_load_address} - ${linux_dtb_load_address}
bootdelay=1
board/altera/socrates_cyclone5/genimage.cfg
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image boot.vfat {
vfat {
files = {
"zImage",
"socfpga_cyclone5_socrates.dtb"
}
}
size = 8M
}
image uboot.img {
hdimage {
partition-table = "no"
}
partition spl {
in-partition-table = "no"
image = "u-boot-spl.bin.crc"
offset = 0
size = 64K
}
partition uboot-full {
in-partition-table = "no"
image = "u-boot.img"
offset = 256k
}
size = 1M
}
image sdcard.img {
hdimage {
}
partition uboot-env {
in-partition-table = "no"
image = "uboot-env.bin"
offset = 17K # 512 * 34 -> just after gpt
}
partition boot {
partition-type = 0xc
bootable = "true"
image = "boot.vfat"
}
partition uboot {
partition-type = 0xa2
image = "uboot.img"
}
partition rootfs {
partition-type = 0x83
image = "rootfs.ext2"
size = 500M
}
}
board/altera/socrates_cyclone5/readme.txt
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EBV SoCrates Evaluation Board
Intro
=====
More information about this board can be found here:
https://rocketboards.org/foswiki/Documentation/EBVSoCratesEvaluationBoard
Build
=====
First, load socrates config for buildroot
make socrates_cyclone5_defconfig
Build everything
make
Following files will be generated in output/images
.
├── boot.vfat
├── rootfs.ext2
├── rootfs.ext4 -> rootfs.ext2
├── rootfs.tar
├── sdcard.img
├── socfpga_cyclone5_socrates.dtb
├── u-boot-spl.bin
├── u-boot-spl.bin.crc
├── u-boot.bin
├── u-boot.img
├── uboot-env.bin
├── uboot.img
└── zImage
Creating bootable SD card
=========================
Simply invoke
dd if=output/images/sdcard.img of=/dev/sdX
Where X is your SD card device (not partition)
Booting
=======
Pins 6:8 on P18 selector is used to determine boot device. To boot socrates from
sdcard set these pins to value 0x5 (101b). Remaining pins are used to determine
how to configure FPGA and are not associated with booting into Linux kernel.
board/amarula/a64-relic/extlinux.conf
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label linux-4.17.0-rc3
kernel /Image
devicetree /sun50i-a64-amarula-relic.dtb
append console=ttyS0,115200 earlyprintk root=/dev/mmcblk1p4 rootwait
board/amarula/a64-relic/genimage.cfg
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image boot.vfat {
vfat {
files = {
"Image",
"sun50i-a64-amarula-relic.dtb",
"extlinux"
}
}
size = 64M
}
board/amarula/a64-relic/post-build.sh
Executable
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#!/bin/sh
BOARD_DIR="$(dirname $0)"
install -m 0644 -D $BOARD_DIR/extlinux.conf $BINARIES_DIR/extlinux/extlinux.conf
board/amarula/a64-relic/readme.txt
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Amarula A64 Relic
================
Amarula A64-Relic is an Allwinner A64 based IoT device, which supports:
- Allwinner A64 Cortex-A53
- Mali-400MP2 GPU
- AXP803 PMIC
- 1GB DDR3 RAM
- 8GB eMMC
- AP6330 Wifi/BLE
- MIPI-DSI
- CSI: OV5640 sensor
- USB OTG
- 12V DC power supply
Wiki link:
https://openedev.amarulasolutions.com/display/ODWIKI/Amarual+A64-Relic
Build
=====
$ make amarula_a64_relic_defconfig
$ make
build files at output/images/:
- sunxi-spl.bin
- u-boot.itb
- Image
- sun50i-a64-amarula-relic.dtb
- boot.vfat
- rootfs.ext4
Write eMMC
=========
The board comes with an operating system preloaded on the eMMC.
To replace it with the Buildroot-built system, take the following
steps
1. Connect the board UART with host and open minicom(ttyUSBx/115200N8)
2. Supply 12V DC for power-on the board.
3. Interrupt U-Boot by pressing enter
4. Create GPT partitions
=> mmc dev 1
=> gpt write mmc 1 $partitions
5. Connect the board USB-OTG with USB slot on the host.
6. Initiate fastboot
=> fastboot 0
7. Write images from host onto eMMC using fastboot
$ cd output/images
$ sudo fastboot -i 0x1f3a flash loader1 sunxi-spl.bin
$ sudo fastboot -i 0x1f3a flash loader2 u-boot.itb
$ sudo fastboot -i 0x1f3a flash esp boot.vfat
$ sudo fastboot -i 0x1f3a flash system rootfs.ext4
Update eMMC during Development
==============================
During development, reflashing the entire filesystem image at every
change is time consuming. A useful alternative is to directly access
over USB the filesystem stored on the eMMC, using the USB Mass Storage
capability of U-Boot. To achieve this:
1. Build U-Boot by enabling UMS
$ make uboot-menuconfig
(select CONFIG_CMD_USB_MASS_STORAGE=y)
2. Follow all 6 steps from 'Write eMMC' and mount eMMC on host
=> mmc dev 1
=> ums 0 mmc 1
WiFi
====
# wpa_passphrase ACCESSPOINTNAME >> /etc/wpa_supplicant.conf
(type password and enter)
# wpa_supplicant -i wlan0 -c /etc/wpa_supplicant.conf -B
# udhcpc -i wlan0
# ping google.com
--
Jagan Teki <jagan@amarulasolutions.com>
29-Jun-2018
board/amarula/a64-relic/rootfs_overlay/lib/firmware/brcm/brcmfmac4330-sdio.txt
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#AP6330_NVRAM_V1.0_20121130
#Sample variables file for BCM94330 SD FC AGB board
manfid=0x2d0
prodid=0x0547
vendid=0x14e4
devid=0x4360
boardtype=0x05e1
boardrev=0x1202
boardflags=0x0080200
nocrc=1
xtalfreq=26000
boardnum=22
macaddr=00:90:4c:c5:12:38
ag0=254
aa2g=1
ccode=ALL
pa0itssit=0x20
pa0b0=5587
pa0b1=-633
pa0b2=-158
rssismf2g=0xa
rssismc2g=0x3
rssisav2g=0x7
#rssi params for 5GHz
rssismf5g=0x4
rssismc5g=0x3
rssisav5g=0x7
#PA parameters for lower a-band
pa1lob0=4748
pa1lob1=-566
pa1lob2=-180
#PA parameters for midband
pa1b0=4762
pa1b1=-593
pa1b2=-172
#PA parameters for high band
#pa1hib0=4596
pa1hib0=4666
pa1hib1=-619
pa1hib2=-163
rxpo5g=0
maxp2ga0=74
maxp5ga0=66
maxp5gla0=66
maxp5gha0=66
# 2.4G Tx Power offsets
cck2gpo=0x2222
ofdm2gpo=0x44444444
mcs2gpo0=0x6666
mcs2gpo1=0x6666
# 5G Tx Power offsets
ofdm5gpo=0x44444444
ofdm5glpo=0x44444444
ofdm5ghpo=0x44444444
mcs5gpo0=0x6666
mcs5gpo1=0x6666
mcs5glpo0=0x6666
mcs5glpo1=0x6666
mcs5ghpo0=0x6666
mcs5ghpo1=0x6666
sromrev=3
il0macaddr=00:90:4c:c5:12:38
wl0id=0x431b
cckPwrOffset=4
swctrlmap_2g=0x44844484,0x42824282,0x40804484,0x18282,0x1ff
triso5g=0
swctrlmap_5g=0x00100010,0x20202020,0x20202020,0x14202,0x0f0
rfreg033=0x19
rfreg033_cck=0x1f
dacrate2g=160
dacrate5g=160
txalpfbyp2g=1
bphyscale=17
cckPwrIdxCorr=-15
pacalidx2g=50
#pacalidx5g=20
noise_cal_ref_2g=53
noise_cal_po_2g=0
noise_cal_ref_5g=52
noise_cal_po_5g=5,0,0
# 4330 OOB parameter: High level trigger
muxenab=0x10
board/amarula/vyasa/extlinux.conf
+4
View File
@@ -0,0 +1,4 @@
label Vyasa linux-next
kernel /boot/uImage
devicetree /boot/rk3288-vyasa.dtb
append console=ttyS2,115200n8 root=/dev/mmcblk0p1 rootwait
board/amarula/vyasa/genimage.cfg
+22
View File
@@ -0,0 +1,22 @@
image sdcard.img {
hdimage {
}
partition u-boot-tpl-spl-dtb {
in-partition-table = "no"
image = "u-boot-tpl-spl-dtb.img"
offset = 32K
}
partition u-boot-dtb {
in-partition-table = "no"
image = "u-boot-dtb.img"
offset = 8M
size = 30M # falcon mode: args @ 16M args, uImage @ 17M
}
partition rootfs {
partition-type = 0x83
image = "rootfs.ext4"
}
}
board/amarula/vyasa/linux_gmac.fragment
+3
View File
@@ -0,0 +1,3 @@
# Currently mainline kernel exhibits issues when running rockchip gmac
# on the board, so enable it as loadable module and insert it later
CONFIG_DWMAC_ROCKCHIP=m
board/amarula/vyasa/post-build.sh
Executable
+9
View File
@@ -0,0 +1,9 @@
#!/bin/sh
MKIMAGE=$HOST_DIR/bin/mkimage
BOARD_DIR="$(dirname $0)"
$MKIMAGE -n rk3288 -T rksd -d $BINARIES_DIR/u-boot-tpl.bin $BINARIES_DIR/u-boot-tpl.img
cat $BINARIES_DIR/u-boot-tpl.img $BINARIES_DIR/u-boot-spl-dtb.bin > $BINARIES_DIR/u-boot-tpl-spl-dtb.img
install -m 0644 -D $BOARD_DIR/extlinux.conf $TARGET_DIR/boot/extlinux/extlinux.conf
board/amarula/vyasa/readme.txt
+31
View File
@@ -0,0 +1,31 @@
Vyasa RK3288
============
Vyasa is RK3288 based Single board computer with fully supported opensource software.
https://openedev.amarulasolutions.com/display/ODWIKI/Vyasa+RK3288
How to build it
===============
$ make amarula_vyasa_rk3288_defconfig
Then you can edit the build options using
$ make menuconfig
Compile all and build rootfs image:
$ make
Prepare your SDCard
===================
Buildroot generates a ready-to-use SD card image that you can flash directly to
the card. The image will be in output/images/sdcard.img.
You can write this image directly to an SD card device (i.e. /dev/xxx):
$ sudo dd if=output/images/sdcard.img of=/dev/xxx
$ sudo sync
Finally, you can insert the SD card to the Vyasa RK3288 board, close J4 and boot it.
board/andes/ae3xx/ae3xx.fragment
+1
View File
@@ -0,0 +1 @@
CONFIG_NDS32_BUILTIN_DTB="ae3xx"
board/andes/patches/linux/0001-nds32-Fix-boot-messages-garbled.patch
+28
View File
@@ -0,0 +1,28 @@
From 90d52d180dcc5d1300dc352ca709eb6453894143 Mon Sep 17 00:00:00 2001
From: Nylon Chen <nylon7@andestech.com>
Date: Wed, 28 Nov 2018 16:26:46 +0800
Subject: [PATCH] nds32: Fix boot messages garbled
In order to display uart correctly we have to pass the correct setting of uart to kernel by bootarg.
This patch will provide such settings to set the correct uart baud rate.
Signed-off-by: Nylon Chen <nylon7@andestech.com>
---
arch/nds32/boot/dts/ae3xx.dts | 1 +
1 file changed, 1 insertion(+)
diff --git a/arch/nds32/boot/dts/ae3xx.dts b/arch/nds32/boot/dts/ae3xx.dts
index bb39749a6673..aefe2090926a 100644
--- a/arch/nds32/boot/dts/ae3xx.dts
+++ b/arch/nds32/boot/dts/ae3xx.dts
@@ -6,6 +6,7 @@
interrupt-parent = <&intc>;
chosen {
+ bootargs = "memblock=debug earlycon console=ttyS0,38400n8 debug loglevel=7";
stdout-path = &serial0;
};
--
2.18.0
board/andes/readme.txt
+49
View File
@@ -0,0 +1,49 @@
Intro
=====
Andestech(nds32) AE3XX Platform
The AE3XX prototype demonstrates the AE3XX example platform on the FPGA.
It is composed of one Andestech(nds32) processor and AE3XX.
How to build it
===============
Configure Buildroot
-------------------
The andes_ae3xx_defconfig configuration is a sample configuration with
all that is required to bring the FPGA Development Board:
$ make andes_ae3xx_defconfig
Build everything
----------------
Note: you will need to have access to the network, since Buildroot will
download the packages' sources.
$ make
Result of the build
-------------------
After building, you should obtain this tree:
output/images/
+-- vmlinux
+-- rootfs.cpio
+-- rootfs.tar
How to run it
=============
Run
---
Setup the Console with the rate 38400/8-N-1.
$ cd output/images
$ ../host/bin/nds32le-linux-gdb vmlinux
$ target remote [your host]
$ lo
$ c
board/arcturus/aarch64-ucls1012a/post-build.sh
Executable
+5
View File
@@ -0,0 +1,5 @@
#!/bin/sh
mkdir -p ${TARGET_DIR}/lib/firmware
cp -f ${BUILD_DIR}/linux-custom/firmware/ppfe/* ${TARGET_DIR}/lib/firmware/
cp -f ${BUILD_DIR}/linux-custom/br2-ucls1012a.its ${BINARIES_DIR}/
board/arcturus/aarch64-ucls1012a/post-image.sh
Executable
+6
View File
@@ -0,0 +1,6 @@
#!/bin/sh
MKIMAGE=${HOST_DIR}/usr/bin/mkimage
MKIMAGE_IN=${BINARIES_DIR}/br2-ucls1012a.its
MKIMAGE_OUT=${BINARIES_DIR}/part0-000000.itb
${MKIMAGE} -f ${MKIMAGE_IN} ${MKIMAGE_OUT}
board/arcturus/aarch64-ucls1012a/readme.txt
+74
View File
@@ -0,0 +1,74 @@
Arcturus uCLS1012A SoM
======================
This tutorial describes how to use the predefined Buildroot
configuration for the Arcturus uCLS101A SoM platform.
Additional information about the uCLS1012A System on Module can be found at
https://www.arcturusnetworks.com/products/ucls1012a
and product support for registered users at
https://www.arcturusnetworks.com/support
Building
--------
Return to the top directory <buildrootdir> and execute the following commands.
make arcturus_ucls1012a_defconfig
make
Result of the build
-------------------
After building, you should obtain this tree:
output/images/
+-- arc-ucls1012a.dtb
+-- Image
+-- part0-000000.itb
+-- rootfs.cpio
+-- rootfs.cpio.gz
+-- rootfs.tar
+-- u-boot.bin
+-- ucls1012a.its
Flashing
--------
You'll need to program the image created by buildroot into the SPI NOR flash.
1. Reboot your module and via the serial console press <escape> to enter the B$
u-boot shell.
From the shell you will need to update four environment variables replacing the
IPv4 IP Address with ones that will work with your network and tftp server.
B$ setenv ipaddr 192.168.1.81
B$ setenv serverip 192.168.1.80
B$ setenv gatewayip 192.168.1.1
B$ setenv netmask 255.255.255.0
B$ saveenv
2. Enable tftp server to serve the <buildrootdir>/output/images/ folder.
3. Program the new U-Boot binary (optional)
If you don't feel confident upgrading your bootloader then don't do it,
it's unnecessary most of the time.
B$ tftp u-boot.bin
B$ run program_uboot
4. Program the ITB image (includes Kernel, DTB and Ramdisk)
B$ tftp part0-000000.itb
B$ run iprogram
5. Booting your new system
Reboot your system by reset command
B$ reset
or
B$ run bootcmd
Good Luck !
board/arcturus/aarch64-ucls1012a/rootfs_overlay/etc/init.d/S09modload
Executable
+14
View File
@@ -0,0 +1,14 @@
#!/bin/sh
#
case "$1" in
start)
modprobe pfe
;;
stop)
;;
restart|reload)
;;
*)
echo "Usage: $0 {start|stop|restart}"
exit 1
esac
board/arcturus/ppc-ucp1020/readme.txt
+74
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@@ -0,0 +1,74 @@
Arcturus uCP1020 SoM
====================
This tutorial describes how to use the predefined Buildroot
configuration for the Arcturus uCP1020 SoM platform.
Additional information about this module can be found at
<www.arcturusnetworks.com/products/ucp1020>
Building
--------
make arcturus_ucp1020_defconfig
make
Result of the build
-------------------
After building, you should obtain this tree:
output/images/
+-- rootfs.jffs2
+-- rootfs.tar
+-- u-boot.bin
+-- ucp1020.dtb
+-- uImage
Flashing
--------
You'll need to program the files created by buildroot into the NOR flash.
1. Program the new U-Boot binary (optional)
If you don't feel confident upgrading your bootloader then don't do it,
it's unnecessary most of the time.
B$ tftp u-boot.bin
B$ protect off 0xeff80000 +$filesize
B$ erase 0xeff80000 +$filesize
B$ cp.b $loadaddr 0xeff80000 $filesize
B$ protect on 0xeff80000 +$filesize
2. Program the kernel
B$ tftp uImage
B$ erase 0xec140000 +$filesize
B$ cp.b $loadaddr 0xec140000 $filesize
3. Program the DTB
B$ tftp ucp1020.dtb
B$ erase 0xec100000 +$filesize
B$ cp.b $loadaddr 0xec100000 $filesize
4. Program the jffs2 root filesystem
B$ tftp rootfs.jffs2
B$ erase 0xec800000 0xee8fffff
B$ cp.b $loadaddr 0xec800000 $filesize
5. Booting your new system
B$ setenv norboot 'setenv bootargs root=/dev/mtdblock1 rootfstype=jffs2 console=$consoledev,$baudrate;bootm 0xec140000 - 0xec100000'
If you want to set this boot option as default:
B$ setenv bootcmd 'run norboot'
B$ saveenv
...or for a single boot:
B$ run norboot
Good Luck !
board/arm/foundation-v8/readme.txt
+20
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@@ -0,0 +1,20 @@
This is the support for the ARM Foundation v8 machine emulated by the
ARM software simulator of the AArch64 architecture.
First, one has to download the AArch64 software simulator from:
https://silver.arm.com/download/download.tm?pv=4807186
Then, use the arm_foundationv8_defconfig configuration to build your
Buildroot system.
Finally, boot your system with:
${LOCATION_OF_FOUNDATIONV8_SIMULATOR}/models/Linux64_GCC-6.4/Foundation_Platform \
--image output/images/linux-system.axf \
--block-device output/images/rootfs.ext2 \
--network=nat \
--cores 4
You can get network access from within the simulated environment
by requesting an IP address using DHCP (run the command 'udhcpc').
board/arm/juno/linux-juno-defconfig
+169
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@@ -0,0 +1,169 @@
CONFIG_SMP=y
CONFIG_SYSVIPC=y
CONFIG_POSIX_MQUEUE=y
CONFIG_FHANDLE=y
CONFIG_AUDIT=y
CONFIG_NO_HZ_IDLE=y
CONFIG_HIGH_RES_TIMERS=y
CONFIG_BSD_PROCESS_ACCT=y
CONFIG_BSD_PROCESS_ACCT_V3=y
CONFIG_TASKSTATS=y
CONFIG_TASK_DELAY_ACCT=y
CONFIG_TASK_XACCT=y
CONFIG_TASK_IO_ACCOUNTING=y
CONFIG_IKCONFIG=y
CONFIG_IKCONFIG_PROC=y
CONFIG_LOG_BUF_SHIFT=14
CONFIG_MEMCG=y
CONFIG_MEMCG_SWAP=y
CONFIG_MEMCG_KMEM=y
CONFIG_CGROUP_HUGETLB=y
CONFIG_SCHED_AUTOGROUP=y
CONFIG_BLK_DEV_INITRD=y
CONFIG_KALLSYMS_ALL=y
CONFIG_PROFILING=y
CONFIG_JUMP_LABEL=y
CONFIG_MODULES=y
CONFIG_MODULE_UNLOAD=y
CONFIG_ARCH_VEXPRESS=y
CONFIG_PCI=y
CONFIG_PCI_MSI=y
CONFIG_PCI_HOST_GENERIC=y
CONFIG_PCIEPORTBUS=y
CONFIG_HOTPLUG_PCI_PCIE=y
CONFIG_HOTPLUG_PCI=y
CONFIG_NR_CPUS=6
CONFIG_PREEMPT=y
CONFIG_KSM=y
CONFIG_TRANSPARENT_HUGEPAGE=y
CONFIG_CMA=y
CONFIG_CMDLINE="console=ttyAMA0"
CONFIG_COMPAT=y
CONFIG_CPU_IDLE=y
CONFIG_ARM_CPUIDLE=y
CONFIG_CPU_FREQ=y
CONFIG_CPU_FREQ_GOV_USERSPACE=y
CONFIG_CPU_FREQ_GOV_ONDEMAND=y
CONFIG_CPU_FREQ_GOV_INTERACTIVE=y
CONFIG_ARM_BIG_LITTLE_CPUFREQ=y
CONFIG_ARM_DT_BL_CPUFREQ=y
CONFIG_ARM_SCPI_CPUFREQ=y
CONFIG_NET=y
CONFIG_PACKET=y
CONFIG_UNIX=y
CONFIG_INET=y
CONFIG_IP_PNP=y
CONFIG_IP_PNP_DHCP=y
CONFIG_IP_PNP_BOOTP=y
CONFIG_BPF_JIT=y
CONFIG_UEVENT_HELPER_PATH="/sbin/hotplug"
CONFIG_DEVTMPFS=y
CONFIG_DEVTMPFS_MOUNT=y
CONFIG_BLK_DEV_LOOP=y
CONFIG_BLK_DEV_RAM=y
CONFIG_BLK_DEV_SD=y
CONFIG_ATA=y
CONFIG_SATA_AHCI=y
CONFIG_SATA_AHCI_PLATFORM=y
CONFIG_AHCI_XGENE=y
CONFIG_PATA_PLATFORM=y
CONFIG_PATA_OF_PLATFORM=y
CONFIG_NETDEVICES=y
CONFIG_TUN=y
CONFIG_SKY2=y
CONFIG_SMC91X=y
CONFIG_SMSC911X=y
CONFIG_INPUT_EVDEV=y
CONFIG_SERIO_AMBAKMI=y
CONFIG_LEGACY_PTY_COUNT=16
CONFIG_SERIAL_8250=y
CONFIG_SERIAL_8250_CONSOLE=y
CONFIG_SERIAL_AMBA_PL011=y
CONFIG_SERIAL_AMBA_PL011_CONSOLE=y
CONFIG_SERIAL_OF_PLATFORM=y
CONFIG_SERIAL_XILINX_PS_UART=y
CONFIG_SERIAL_XILINX_PS_UART_CONSOLE=y
CONFIG_I2C_CHARDEV=y
CONFIG_I2C_DESIGNWARE_PLATFORM=y
CONFIG_I2C_SLAVE=y
CONFIG_SPI=y
CONFIG_SPI_PL022=y
CONFIG_PTP_1588_CLOCK=m
CONFIG_GPIO_PL061=y
CONFIG_GPIO_XGENE=y
CONFIG_POWER_RESET_XGENE=y
CONFIG_POWER_RESET_SYSCON=y
CONFIG_REGULATOR=y
CONFIG_REGULATOR_FIXED_VOLTAGE=y
CONFIG_REGULATOR_VEXPRESS=m
CONFIG_DRM=y
CONFIG_DRM_I2C_NXP_TDA998X=y
CONFIG_DRM_ARM=y
CONFIG_DRM_HDLCD=y
CONFIG_DRM_VIRTUAL_HDLCD=y
CONFIG_FB_ARMCLCD=y
CONFIG_LOGO=y
CONFIG_USB=y
CONFIG_USB_ANNOUNCE_NEW_DEVICES=y
CONFIG_USB_EHCI_HCD=y
CONFIG_USB_EHCI_HCD_PLATFORM=y
CONFIG_USB_OHCI_HCD=y
CONFIG_USB_OHCI_HCD_PLATFORM=y
CONFIG_USB_STORAGE=y
CONFIG_USB_ISP1760=y
CONFIG_NOP_USB_XCEIV=y
CONFIG_USB_ULPI=y
CONFIG_MMC=y
CONFIG_MMC_ARMMMCI=y
CONFIG_MMC_SDHCI=y
CONFIG_MMC_SDHCI_PLTFM=y
CONFIG_MMC_SPI=y
CONFIG_RTC_CLASS=y
CONFIG_RTC_DRV_EFI=y
CONFIG_RTC_DRV_PL030=y
CONFIG_RTC_DRV_PL031=y
CONFIG_DMADEVICES=y
CONFIG_PL330_DMA=y
CONFIG_COMMON_CLK_SCPI=y
CONFIG_ARM_TIMER_SP804=y
CONFIG_MAILBOX=y
CONFIG_ARM_MHU=y
CONFIG_PHY_XGENE=y
CONFIG_ARM_SCPI_PROTOCOL=y
CONFIG_EXT2_FS=y
CONFIG_EXT3_FS=y
CONFIG_FANOTIFY=y
CONFIG_FANOTIFY_ACCESS_PERMISSIONS=y
CONFIG_QUOTA=y
CONFIG_AUTOFS4_FS=y
CONFIG_FUSE_FS=y
CONFIG_CUSE=y
CONFIG_VFAT_FS=y
CONFIG_TMPFS=y
CONFIG_HUGETLBFS=y
CONFIG_EFIVAR_FS=y
CONFIG_NLS_CODEPAGE_437=y
CONFIG_NLS_ISO8859_1=y
CONFIG_VIRTUALIZATION=y
CONFIG_KVM=y
CONFIG_DYNAMIC_DEBUG=y
CONFIG_DEBUG_INFO=y
CONFIG_DEBUG_FS=y
CONFIG_MAGIC_SYSRQ=y
CONFIG_DEBUG_KERNEL=y
CONFIG_LOCKUP_DETECTOR=y
CONFIG_SECURITY=y
CONFIG_CRYPTO_ANSI_CPRNG=y
CONFIG_ARM64_CRYPTO=y
CONFIG_CRYPTO_SHA1_ARM64_CE=y
CONFIG_CRYPTO_SHA2_ARM64_CE=y
CONFIG_CRYPTO_GHASH_ARM64_CE=y
CONFIG_CRYPTO_AES_ARM64_CE_CCM=y
CONFIG_CRYPTO_AES_ARM64_CE_BLK=y
CONFIG_SOUND=y
CONFIG_SND=y
CONFIG_SND_SOC=y
CONFIG_SND_SIMPLE_CARD=y
CONFIG_SND_DESIGNWARE_I2S=y
CONFIG_CMA=y
CONFIG_CMA_SIZE_MBYTES=64
board/arm/juno/readme.txt
+134
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@@ -0,0 +1,134 @@
ARM Juno r1/r0
Intro
=====
These instructions apply to all models of the ARM Juno:
- Juno r0 (does not support PCIe)
- Juno r1 (supports PCIe)
- Juno r2 (Big Cluster with A72)
Buildroot will generate the kernel image, device tree blob, bootloader binaries
and a minimal root filesystem.
How to build it
===============
Configure Buildroot
-------------------
Configuring Buildroot is pretty simple, just execute:
$ make arm_juno_defconfig
Build the rootfs, kernel and DTB
--------------------------------
Note: you will need to have access to the network, since Buildroot will
download the packages' sources.
You may now build your rootfs with:
$ make
(This may take a while)
Result of the build
-------------------
After building, you should obtain this tree:
output/images/
+-- rootfs.tar
+-- juno.dtb (if Juno r0 is used)
+-- juno-r1.dtb (if Juno r1 is used)
+-- juno-r2.dtb (if Juno r2 is used)
+-- Image
+-- bl1.bin
+-- bl2.bin
+-- bl2u.bin
+-- bl31.bin
+-- fip.bin
+-- scp-fw.bin
+-- u-boot.bin
Preparing your rootfs
======================
Format your pen drive as a ext3 filesystem by executing:
$ mkfs.ext3 /dev/<your device>
Preparing your rootfs
======================
Format your pen drive as a ext3 filesystem by executing:
$ mkfs.ext3 /dev/<your device>
Installing your rootfs
======================
After mounting the pen drive please execute the following:
$ sudo tar -xvf output/images/rootfs.tar -C <pen drive mount path>
When completed make sure to unmount the device:
$ umount <pen drive mount path>
Insert the pen drive in one of the ARM Juno' USB type A connectors.
Configure *.dtb in the boot configuration for Juno r0
=====================================================
SITE1/HBI0262B/images.txt
.....
NOR3UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR3ADDRESS: 0x00C00000 ;Image Flash Address
NOR3FILE: \SOFTWARE\juno.dtb ;Image File Name
NOR3NAME: board.dtb ;Specify Image name to preserve file extension
NOR3LOAD: 00000000 ;Image Load Address
NOR3ENTRY: 00000000 ;Image Entry Point
......
Configure *.dtb in the boot configuration for Juno r1
=====================================================
SITE1/HBI0262C/images.txt
......
NOR3UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR3ADDRESS: 0x00C00000 ;Image Flash Address
NOR3FILE: \SOFTWARE\juno-r1.dtb ;Image File Name
NOR3NAME: board.dtb ;Specify target filename to preserve file extension
NOR3LOAD: 00000000 ;Image Load Address
NOR3ENTRY: 00000000 ;Image Entry Point
......
Configure *.dtb in the boot configuration for Juno r2
=====================================================
SITE1/HBI0262D/images.txt
......
NOR3UPDATE: AUTO ;Image Update:NONE/AUTO/FORCE
NOR3ADDRESS: 0x02000000 ;Image Flash Address
NOR3FILE: \SOFTWARE\juno-r2.dtb ;Image File Name
NOR3NAME: board.dtb ;Specify target filename to preserve file extension
NOR3LOAD: 00000000 ;Image Load Address
NOR3ENTRY: 00000000 ;Image Entry Point
......
Installing kernel image and DTB
===============================
1. Connect to the ARM Juno UART0 and execute USB_ON in the terminal
2. Connect a USB cable between your PC and ARM Juno USB type B connector
A mass storage device should appear in your desktop.
3. Open the software/ folder
4. Copy the 'Image' file to software/
5. Copy the 'juno-r1.dtb' (r1), 'juno.dtb' (r0) or juno-r2.dtb (r2) file to software/
6. Copy the bootloader binaries (bl1.bin and fip.bin) to software/
7. Press the red button in the front pannel of ARM Juno
At this time, the board will erase the Flash entry for each new item and
replace it with the lastest ones.
board/armadeus/apf27/linux-4.12.config
+216
View File
@@ -0,0 +1,216 @@
# CONFIG_SWAP is not set
CONFIG_SYSVIPC=y
CONFIG_POSIX_MQUEUE=y
CONFIG_NO_HZ=y
CONFIG_HIGH_RES_TIMERS=y
CONFIG_LOG_BUF_SHIFT=14
CONFIG_CGROUPS=y
CONFIG_EMBEDDED=y
# CONFIG_COMPAT_BRK is not set
CONFIG_SLAB=y
CONFIG_PROFILING=y
CONFIG_OPROFILE=m
CONFIG_MODULES=y
CONFIG_MODULE_UNLOAD=y
# CONFIG_BLK_DEV_BSG is not set
# CONFIG_IOSCHED_DEADLINE is not set
# CONFIG_IOSCHED_CFQ is not set
# CONFIG_ARCH_MULTI_V7 is not set
CONFIG_ARCH_MXC=y
CONFIG_MACH_IMX27_DT=y
CONFIG_PREEMPT=y
CONFIG_AEABI=y
CONFIG_ZBOOT_ROM_TEXT=0x0
CONFIG_ZBOOT_ROM_BSS=0x0
CONFIG_PM_DEBUG=y
CONFIG_NET=y
CONFIG_PACKET=y
CONFIG_UNIX=y
CONFIG_INET=y
CONFIG_IP_MULTICAST=y
CONFIG_IP_PNP=y
CONFIG_IP_PNP_DHCP=y
# CONFIG_INET_XFRM_MODE_TRANSPORT is not set
# CONFIG_INET_XFRM_MODE_TUNNEL is not set
# CONFIG_INET_XFRM_MODE_BEET is not set
# CONFIG_INET_DIAG is not set
CONFIG_CAN=m
CONFIG_CAN_VCAN=m
CONFIG_CAN_MCP251X=m
CONFIG_BT=m
CONFIG_BT_RFCOMM=m
CONFIG_BT_RFCOMM_TTY=y
CONFIG_BT_BNEP=m
CONFIG_BT_HIDP=m
CONFIG_BT_HCIBTUSB=m
CONFIG_BT_HCIUART=m
CONFIG_BT_HCIUART_H4=y
CONFIG_BT_HCIUART_BCSP=y
CONFIG_CFG80211=m
CONFIG_MAC80211=m
CONFIG_UEVENT_HELPER_PATH="/sbin/hotplug"
CONFIG_DEVTMPFS=y
CONFIG_DEVTMPFS_MOUNT=y
CONFIG_MTD=y
CONFIG_MTD_CMDLINE_PARTS=y
CONFIG_MTD_BLOCK=y
CONFIG_MTD_CFI=y
CONFIG_MTD_CFI_ADV_OPTIONS=y
CONFIG_MTD_CFI_GEOMETRY=y
# CONFIG_MTD_MAP_BANK_WIDTH_1 is not set
# CONFIG_MTD_CFI_I2 is not set
CONFIG_MTD_CFI_INTELEXT=y
CONFIG_MTD_PHYSMAP=y
CONFIG_MTD_NAND=y
CONFIG_MTD_NAND_MXC=y
CONFIG_MTD_UBI=y
CONFIG_EEPROM_AT24=y
CONFIG_EEPROM_AT25=y
CONFIG_SCSI=y
CONFIG_BLK_DEV_SD=y
CONFIG_NETDEVICES=y
# CONFIG_NET_VENDOR_BROADCOM is not set
# CONFIG_NET_VENDOR_CIRRUS is not set
# CONFIG_NET_VENDOR_FARADAY is not set
# CONFIG_NET_VENDOR_INTEL is not set
# CONFIG_NET_VENDOR_MARVELL is not set
# CONFIG_NET_VENDOR_MICREL is not set
# CONFIG_NET_VENDOR_MICROCHIP is not set
# CONFIG_NET_VENDOR_NATSEMI is not set
# CONFIG_NET_VENDOR_SEEQ is not set
# CONFIG_NET_VENDOR_SMSC is not set
# CONFIG_NET_VENDOR_STMICRO is not set
# CONFIG_NET_VENDOR_WIZNET is not set
CONFIG_SMSC_PHY=y
CONFIG_LIBERTAS=m
CONFIG_LIBERTAS_SDIO=m
CONFIG_RT2X00=m
CONFIG_RT2500USB=m
CONFIG_RT73USB=m
CONFIG_RT2800USB=m
CONFIG_RTL8187=m
CONFIG_RTL8192CU=m
CONFIG_ZD1211RW=m
CONFIG_INPUT_JOYDEV=y
CONFIG_INPUT_EVDEV=y
CONFIG_KEYBOARD_GPIO=y
CONFIG_KEYBOARD_IMX=m
# CONFIG_INPUT_MOUSE is not set
CONFIG_INPUT_JOYSTICK=y
CONFIG_INPUT_TOUCHSCREEN=y
# CONFIG_LEGACY_PTYS is not set
CONFIG_SERIAL_IMX=y
CONFIG_SERIAL_IMX_CONSOLE=y
# CONFIG_HW_RANDOM is not set
CONFIG_I2C=y
CONFIG_I2C_CHARDEV=y
CONFIG_I2C_IMX=y
CONFIG_SPI=y
CONFIG_SPI_IMX=y
CONFIG_SPI_SPIDEV=m
CONFIG_GPIO_SYSFS=y
CONFIG_W1=y
CONFIG_W1_MASTER_MXC=y
CONFIG_W1_SLAVE_THERM=y
CONFIG_WATCHDOG=y
CONFIG_IMX2_WDT=y
CONFIG_REGULATOR=y
CONFIG_REGULATOR_FIXED_VOLTAGE=y
CONFIG_MEDIA_SUPPORT=m
CONFIG_MEDIA_CAMERA_SUPPORT=y
CONFIG_MEDIA_USB_SUPPORT=y
CONFIG_USB_VIDEO_CLASS=m
CONFIG_USB_PWC=m
CONFIG_V4L_PLATFORM_DRIVERS=y
CONFIG_SOC_CAMERA=m
# CONFIG_MEDIA_SUBDRV_AUTOSELECT is not set
CONFIG_FB=y
# CONFIG_FB_MX3 is not set
CONFIG_BACKLIGHT_LCD_SUPPORT=y
# CONFIG_LCD_CLASS_DEVICE is not set
CONFIG_BACKLIGHT_CLASS_DEVICE=y
CONFIG_FRAMEBUFFER_CONSOLE=y
CONFIG_LOGO=y
# CONFIG_LOGO_LINUX_MONO is not set
# CONFIG_LOGO_LINUX_VGA16 is not set
CONFIG_SOUND=m
CONFIG_SND=m
CONFIG_SND_MIXER_OSS=m
CONFIG_SND_PCM_OSS=m
# CONFIG_SND_DRIVERS is not set
# CONFIG_SND_ARM is not set
# CONFIG_SND_SPI is not set
# CONFIG_SND_USB is not set
CONFIG_SND_SOC=m
CONFIG_SND_IMX_SOC=m
CONFIG_USB=y
CONFIG_USB_EHCI_HCD=y
CONFIG_USB_EHCI_MXC=y
CONFIG_USB_ACM=y
CONFIG_USB_PRINTER=y
CONFIG_USB_STORAGE=y
CONFIG_USB_CHIPIDEA=y
CONFIG_USB_CHIPIDEA_HOST=y
CONFIG_USB_SERIAL=y
CONFIG_USB_SERIAL_FTDI_SIO=y
CONFIG_USB_SERIAL_PL2303=y
CONFIG_USB_ULPI=y
CONFIG_USB_GADGET=y
CONFIG_USB_ETH=m
CONFIG_USB_GADGETFS=m
CONFIG_USB_MASS_STORAGE=m
CONFIG_USB_G_HID=m
CONFIG_MMC=y
CONFIG_MMC_MXC=y
CONFIG_NEW_LEDS=y
CONFIG_LEDS_CLASS=y
CONFIG_LEDS_GPIO=y
CONFIG_LEDS_TRIGGERS=y
CONFIG_LEDS_TRIGGER_TIMER=y
CONFIG_LEDS_TRIGGER_ONESHOT=y
CONFIG_LEDS_TRIGGER_HEARTBEAT=y
CONFIG_LEDS_TRIGGER_BACKLIGHT=y
CONFIG_LEDS_TRIGGER_CPU=y
CONFIG_LEDS_TRIGGER_GPIO=y
CONFIG_LEDS_TRIGGER_DEFAULT_ON=y
CONFIG_LEDS_TRIGGER_TRANSIENT=y
CONFIG_RTC_CLASS=y
CONFIG_RTC_DRV_DS1374=y
CONFIG_RTC_DRV_MXC=m
CONFIG_DMADEVICES=y
CONFIG_IMX_DMA=y
CONFIG_IMX_SDMA=y
# CONFIG_IOMMU_SUPPORT is not set
CONFIG_IIO=y
CONFIG_MAX1027=y
CONFIG_MAX5821=y
CONFIG_PWM=y
CONFIG_PWM_IMX=y
CONFIG_EXT2_FS=y
CONFIG_EXT3_FS=y
CONFIG_EXT3_FS_POSIX_ACL=y
CONFIG_EXT3_FS_SECURITY=y
# CONFIG_DNOTIFY is not set
CONFIG_MSDOS_FS=y
CONFIG_VFAT_FS=y
# CONFIG_PROC_PAGE_MONITOR is not set
CONFIG_TMPFS=y
CONFIG_JFFS2_FS=y
CONFIG_UBIFS_FS=y
CONFIG_NFS_FS=y
CONFIG_NFS_V4=y
CONFIG_ROOT_NFS=y
CONFIG_NLS_CODEPAGE_437=y
CONFIG_NLS_CODEPAGE_850=y
CONFIG_NLS_ISO8859_1=y
CONFIG_NLS_ISO8859_15=m
CONFIG_PRINTK_TIME=y
CONFIG_DEBUG_INFO=y
CONFIG_DEBUG_FS=y
# CONFIG_SCHED_DEBUG is not set
# CONFIG_DEBUG_PREEMPT is not set
# CONFIG_FTRACE is not set
CONFIG_DEBUG_LL=y
CONFIG_EARLY_PRINTK=y
CONFIG_FONTS=y
CONFIG_FONT_8x8=y
board/armadeus/apf51/linux-4.4.config
+278
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@@ -0,0 +1,278 @@
CONFIG_EXPERIMENTAL=y
# CONFIG_LOCALVERSION_AUTO is not set
# CONFIG_SWAP is not set
CONFIG_SYSVIPC=y
CONFIG_NO_HZ=y
CONFIG_HIGH_RES_TIMERS=y
CONFIG_IKCONFIG=y
CONFIG_IKCONFIG_PROC=y
CONFIG_LOG_BUF_SHIFT=14
CONFIG_EMBEDDED=y
# CONFIG_COMPAT_BRK is not set
CONFIG_SLAB=y
CONFIG_PROFILING=y
CONFIG_OPROFILE=y
CONFIG_MODULES=y
CONFIG_MODULE_UNLOAD=y
# CONFIG_BLK_DEV_BSG is not set
CONFIG_PARTITION_ADVANCED=y
CONFIG_BSD_DISKLABEL=y
# CONFIG_IOSCHED_CFQ is not set
CONFIG_ARCH_MXC=y
CONFIG_MXC_IRQ_PRIOR=y
CONFIG_SOC_IMX51=y
CONFIG_ARM_THUMBEE=y
CONFIG_PREEMPT=y
CONFIG_AEABI=y
CONFIG_ZBOOT_ROM_TEXT=0x0
CONFIG_ZBOOT_ROM_BSS=0x0
CONFIG_CPU_FREQ=y
CONFIG_CPU_FREQ_STAT_DETAILS=y
CONFIG_CPU_FREQ_DEFAULT_GOV_USERSPACE=y
CONFIG_CPU_FREQ_GOV_PERFORMANCE=y
CONFIG_CPU_FREQ_GOV_POWERSAVE=y
CONFIG_CPU_FREQ_GOV_ONDEMAND=y
CONFIG_CPU_FREQ_GOV_CONSERVATIVE=y
CONFIG_CPU_FREQ_IMX=y
CONFIG_CPU_IDLE=y
CONFIG_VFP=y
CONFIG_NEON=y
# CONFIG_CORE_DUMP_DEFAULT_ELF_HEADERS is not set
# CONFIG_SUSPEND is not set
CONFIG_NET=y
CONFIG_PACKET=y
CONFIG_UNIX=y
CONFIG_INET=y
CONFIG_IP_MULTICAST=y
CONFIG_IP_PNP=y
# CONFIG_INET_XFRM_MODE_TRANSPORT is not set
# CONFIG_INET_XFRM_MODE_TUNNEL is not set
# CONFIG_INET_XFRM_MODE_BEET is not set
# CONFIG_INET_LRO is not set
# CONFIG_INET_DIAG is not set
CONFIG_IPV6=y
CONFIG_CAN=m
CONFIG_CAN_RAW=m
CONFIG_CAN_BCM=m
CONFIG_CAN_VCAN=m
CONFIG_CAN_MCP251X=m
CONFIG_BT=m
CONFIG_BT_L2CAP=y
CONFIG_BT_SCO=y
CONFIG_BT_RFCOMM=m
CONFIG_BT_RFCOMM_TTY=y
CONFIG_BT_BNEP=m
CONFIG_BT_HIDP=m
CONFIG_BT_HCIBTUSB=m
CONFIG_BT_HCIUART=m
CONFIG_BT_HCIUART_H4=y
CONFIG_BT_HCIUART_BCSP=y
CONFIG_CFG80211=m
CONFIG_MAC80211=m
CONFIG_MAC80211_RC_PID=y
CONFIG_UEVENT_HELPER_PATH="/sbin/hotplug"
CONFIG_DEVTMPFS=y
CONFIG_DEVTMPFS_MOUNT=y
CONFIG_FW_LOADER=m
CONFIG_MTD=y
CONFIG_MTD_CMDLINE_PARTS=y
CONFIG_MTD_CHAR=y
CONFIG_MTD_BLOCK=y
CONFIG_MTD_NAND=y
CONFIG_MTD_NAND_MXC=y
CONFIG_MTD_UBI=y
CONFIG_MISC_DEVICES=y
CONFIG_EEPROM_AT24=y
CONFIG_EEPROM_AT25=y
CONFIG_SCSI=y
CONFIG_BLK_DEV_SD=y
CONFIG_CHR_DEV_ST=y
CONFIG_BLK_DEV_SR=y
CONFIG_CHR_DEV_SG=y
CONFIG_CHR_DEV_SCH=y
CONFIG_SCSI_MULTI_LUN=y
CONFIG_SCSI_LOGGING=y
CONFIG_SCSI_SCAN_ASYNC=y
CONFIG_NETDEVICES=y
CONFIG_MII=y
CONFIG_SMSC_PHY=y
CONFIG_NET_ETHERNET=y
# CONFIG_NETDEV_1000 is not set
# CONFIG_NETDEV_10000 is not set
CONFIG_RTL8187=m
CONFIG_LIBERTAS=m
CONFIG_LIBERTAS_SDIO=m
CONFIG_RT2X00=m
CONFIG_RT73USB=m
CONFIG_ZD1211RW=m
CONFIG_INPUT_JOYDEV=y
CONFIG_INPUT_EVDEV=y
CONFIG_KEYBOARD_GPIO=m
CONFIG_KEYBOARD_IMX=m
CONFIG_INPUT_TOUCHSCREEN=y
CONFIG_TOUCHSCREEN_WM831X=y
CONFIG_TOUCHSCREEN_MC13XXX=m
CONFIG_INPUT_MISC=y
CONFIG_INPUT_MC13783_PWRBUTTON=m
CONFIG_INPUT_UINPUT=m
CONFIG_INPUT_WM831X_ON=y
# CONFIG_LEGACY_PTYS is not set
CONFIG_SERIAL_8250=m
CONFIG_SERIAL_IMX=y
CONFIG_SERIAL_IMX_CONSOLE=y
# CONFIG_HW_RANDOM is not set
CONFIG_I2C=y
CONFIG_I2C_CHARDEV=y
CONFIG_I2C_IMX=y
CONFIG_SPI=y
CONFIG_SPI_IMX=y
CONFIG_SPI_SPIDEV=m
CONFIG_GPIO_SYSFS=y
CONFIG_GPIO_WM831X=m
CONFIG_POWER_SUPPLY=y
CONFIG_WM831X_BACKUP=m
CONFIG_WM831X_POWER=m
CONFIG_HWMON=m
CONFIG_SENSORS_AS1531=m
CONFIG_SENSORS_MC13783_ADC=m
CONFIG_SENSORS_WM831X=m
CONFIG_WATCHDOG=y
CONFIG_WATCHDOG_NOWAYOUT=y
CONFIG_WM831X_WATCHDOG=m
CONFIG_IMX2_WDT=y
CONFIG_MFD_MC13XXX_I2C=y
CONFIG_MFD_WM831X_I2C=y
CONFIG_REGULATOR=y
CONFIG_REGULATOR_FIXED_VOLTAGE=y
CONFIG_REGULATOR_MC13892=m
CONFIG_IMX_IPUV3_CORE=y
CONFIG_DRM=y
CONFIG_MFD_IMX_IPU_V3=y
CONFIG_MEDIA_SUPPORT=m
CONFIG_VIDEO_DEV=m
# CONFIG_RC_CORE is not set
# CONFIG_MEDIA_TUNER_SIMPLE is not set
# CONFIG_MEDIA_TUNER_TDA8290 is not set
# CONFIG_MEDIA_TUNER_TDA827X is not set
# CONFIG_MEDIA_TUNER_TDA18271 is not set
# CONFIG_MEDIA_TUNER_TDA9887 is not set
# CONFIG_MEDIA_TUNER_TEA5761 is not set
# CONFIG_MEDIA_TUNER_TEA5767 is not set
# CONFIG_MEDIA_TUNER_MT20XX is not set
# CONFIG_MEDIA_TUNER_MT2060 is not set
# CONFIG_MEDIA_TUNER_MT2266 is not set
# CONFIG_MEDIA_TUNER_MT2131 is not set
# CONFIG_MEDIA_TUNER_QT1010 is not set
# CONFIG_MEDIA_TUNER_XC2028 is not set
# CONFIG_MEDIA_TUNER_XC5000 is not set
# CONFIG_MEDIA_TUNER_MXL5005S is not set
# CONFIG_MEDIA_TUNER_MXL5007T is not set
# CONFIG_MEDIA_TUNER_MC44S803 is not set
# CONFIG_MEDIA_TUNER_MAX2165 is not set
# CONFIG_MEDIA_TUNER_TDA18218 is not set
CONFIG_VIDEO_VIVI=m
CONFIG_USB_VIDEO_CLASS=m
# CONFIG_RADIO_ADAPTERS is not set
CONFIG_FB=y
CONFIG_FB_MX5=y
CONFIG_BACKLIGHT_LCD_SUPPORT=y
CONFIG_FRAMEBUFFER_CONSOLE=y
CONFIG_FONTS=y
CONFIG_FONT_8x8=y
CONFIG_LOGO=y
# CONFIG_LOGO_LINUX_MONO is not set
# CONFIG_LOGO_LINUX_VGA16 is not set
CONFIG_SOUND=m
# CONFIG_SOUND_OSS_CORE_PRECLAIM is not set
CONFIG_SND=m
CONFIG_SND_MIXER_OSS=m
CONFIG_SND_PCM_OSS=m
# CONFIG_SND_DRIVERS is not set
# CONFIG_SND_ARM is not set
# CONFIG_SND_SPI is not set
# CONFIG_SND_USB is not set
CONFIG_SND_SOC=m
CONFIG_SND_IMX_SOC=m
CONFIG_SND_SOC_APF51_DEV_WM8960=m
CONFIG_USB=y
CONFIG_USB_DEBUG=y
CONFIG_USB_ANNOUNCE_NEW_DEVICES=y
CONFIG_USB_DEVICEFS=y
# CONFIG_USB_DEVICE_CLASS is not set
CONFIG_USB_SUSPEND=y
CONFIG_USB_OTG=y
# CONFIG_USB_OTG_WHITELIST is not set
CONFIG_USB_MON=y
CONFIG_USB_EHCI_HCD=y
CONFIG_USB_EHCI_MXC=y
CONFIG_USB_ACM=y
CONFIG_USB_PRINTER=y
CONFIG_USB_WDM=y
CONFIG_USB_STORAGE=y
CONFIG_USB_CHIPIDEA=y
CONFIG_USB_CHIPIDEA_UDC=y
CONFIG_USB_CHIPIDEA_HOST=y
CONFIG_USB_PHY=y
CONFIG_NOP_USB_XCEIV=y
CONFIG_USB_GPIO_VBUS=y
CONFIG_USB_ULPI=y
CONFIG_USB_GADGET=y
CONFIG_USB_GADGET_DEBUG_FILES=y
CONFIG_USB_GADGET_DEBUG_FS=y
CONFIG_USB_ETH=m
CONFIG_USB_MASS_STORAGE=m
CONFIG_USB_G_SERIAL=m
CONFIG_USB_CDC_COMPOSITE=m
CONFIG_USB_G_MULTI=m
CONFIG_USB_G_MULTI_CDC=y
CONFIG_USB_G_HID=m
CONFIG_MMC=y
CONFIG_MMC_SDHCI=y
CONFIG_MMC_SDHCI_PLTFM=y
CONFIG_MMC_SDHCI_ESDHC_IMX=y
CONFIG_MMC_SPI=m
CONFIG_NEW_LEDS=y
CONFIG_LEDS_CLASS=y
CONFIG_LEDS_GPIO=y
CONFIG_LEDS_WM831X_STATUS=m
CONFIG_LEDS_MC13783=m
CONFIG_LEDS_TRIGGERS=y
CONFIG_LEDS_TRIGGER_HEARTBEAT=y
CONFIG_RTC_CLASS=y
CONFIG_RTC_MXC=y
CONFIG_RTC_DRV_WM831X=y
CONFIG_RTC_DRV_MC13XXX=m
CONFIG_STAGING=y
CONFIG_DRM_IMX=y
CONFIG_DRM_IMX_FB_HELPER=y
CONFIG_DRM_IMX_PARALLEL_DISPLAY=y
CONFIG_DRM_IMX_TVE=y
CONFIG_DRM_IMX_IPUV3=y
CONFIG_IIO=m
CONFIG_EXT2_FS=y
CONFIG_EXT2_FS_XATTR=y
CONFIG_EXT2_FS_POSIX_ACL=y
CONFIG_EXT2_FS_SECURITY=y
CONFIG_EXT2_FS_XIP=y
CONFIG_EXT3_FS=y
CONFIG_EXT3_FS_POSIX_ACL=y
CONFIG_EXT3_FS_SECURITY=y
CONFIG_EXT4_FS=y
CONFIG_AUTOFS4_FS=y
CONFIG_ISO9660_FS=y
CONFIG_JOLIET=y
CONFIG_ZISOFS=y
CONFIG_MSDOS_FS=y
CONFIG_VFAT_FS=y
CONFIG_TMPFS=y
CONFIG_UBIFS_FS=y
CONFIG_NFS_FS=y
CONFIG_NFS_V3=y
CONFIG_NFS_V4=y
CONFIG_ROOT_NFS=y
CONFIG_NLS_CODEPAGE_437=y
CONFIG_NLS_CODEPAGE_850=y
CONFIG_NLS_ISO8859_1=y
CONFIG_DEBUG_FS=y
# CONFIG_CRYPTO_ANSI_CPRNG is not set
# CONFIG_CRYPTO_HW is not set
board/armadeus/readme.txt
+84
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@@ -0,0 +1,84 @@
Introduction
============
Armadeus APFxx are Systems On Module (SOM) based on Freescale/NXP i.MX
processors associated with an FPGA (except on APF28). Non volatile
data are stored in on-module NOR or NAND Flash, depending on the
model. These SOM can be used on Armadeus development boards or with
custom docking boards.
Supported platforms
===================
Buildroot currently supports the following Armadeus platforms with the
associated defconfigs:
* APF27 SOM + devt board -> armadeus_apf27_defconfig
* APF51 SOM + devt board -> armadeus_apf51_defconfig
* APF28 SOM + devt board -> armadeus_apf28_defconfig
Vanilla Linux versions are preferred to Freescale's one in these
configurations.
How to build it
===============
Configure Buildroot
-------------------
Let's say you own an APFxx SOM with it's corresponding development
board, all you have to do is:
$ make armadeus_apfxx_defconfig
where "apfxx" is the version of your SOM.
Launch build
------------
$ make
Result of the build
-------------------
When the build is finished, you will end up with:
output/images/
+-- imx**-apfxxdev.dtb [1]
+-- rootfs.tar
+-- rootfs.ubi
+-- rootfs.ubifs
+-- uImage
[1] Only if the kernel version used uses a Device Tree.
Building U-Boot is currently not supported in these configurations.
Installation
============
You will require a serial connection to the board and a TFTP server on
your Host PC. Assuming your server is configured for exporting
/tftpboot/ directory, you will have to copy the generated images to
it:
$ cp output/images/uImage /tftpboot/apfxx-linux.bin
$ cp output/images/*.dtb /tftpboot/
$ cp output/images/rootfs.ubi /tftpboot/apfxx-rootfs.ubi
where "apfxx" is the version of your SOM, as used with _defconfigs.
Then on your serial terminal, all you have to do is:
* interrupt the boot process and access U-Boot console by pressing any
key when booting,
* configure board and server IP addresses with "ipaddr" and "serverip"
environment variables,
* if you want to update kernel:
BIOS > run update_kernel
* if you want to update device tree:
BIOS > run update_dtb
* if you want to update rootfs:
BIOS > run update_rootfs
That's it !
board/arrow/avenger96/overlay/boot/extlinux/extlinux.conf
+4
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@@ -0,0 +1,4 @@
label stm32mp157c-dk2-buildroot
kernel /boot/zImage
devicetree /boot/stm32mp157a-dhcor-avenger96.dtb
append root=/dev/mmcblk1p4 rootwait
board/arrow/avenger96/readme.txt
+41
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@@ -0,0 +1,41 @@
Arrow Avenger96
Intro
=====
This configuration supports the Arrow Avenger96 board:
https://wiki.dh-electronics.com/index.php/Avenger96
How to build
============
$ make avenger96_defconfig
$ make
How to write the microSD card
=============================
WARNING! This will destroy all the card content. Use with care!
Once the build process is finished you will have an image called
"sdcard.img" in the output/images/ directory.
Copy the bootable "sdcard.img" onto an microSD card with "dd":
$ sudo dd if=output/images/sdcard.img of=/dev/sdX
Boot the board
==============
(1) Configure the boot switches for boot from microsd: 1-0-1
(2) Insert the microSD card in the slot
(3) Plug a serial adapter (beware: 1v8 levels!) to the low speed
expansion connector
(4) Plug in power cable
(5) The system will start, with the console on UART, but also visible
on the screen.
board/asus/tinker/extlinux.conf
+4
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@@ -0,0 +1,4 @@
label Tinker linux-next
kernel /boot/uImage
devicetree /boot/rk3288-tinker.dtb
append console=ttyS2,115200n8 root=/dev/mmcblk0p1 rootwait
board/asus/tinker/genimage.cfg
+15
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@@ -0,0 +1,15 @@
image sdcard.img {
hdimage {
}
partition u-boot-spl-dtb {
in-partition-table = "no"
image = "u-boot-spl-dtb.img"
offset = 32K
}
partition rootfs {
partition-type = 0x83
image = "rootfs.ext4"
}
}
board/asus/tinker/post-build.sh
Executable
+9
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@@ -0,0 +1,9 @@
#!/bin/sh
MKIMAGE=$HOST_DIR/bin/mkimage
BOARD_DIR="$(dirname $0)"
$MKIMAGE -n rk3288 -T rksd -d $BINARIES_DIR/u-boot-spl-dtb.bin $BINARIES_DIR/u-boot-spl-dtb.img
cat $BINARIES_DIR/u-boot-dtb.bin >> $BINARIES_DIR/u-boot-spl-dtb.img
install -m 0644 -D $BOARD_DIR/extlinux.conf $TARGET_DIR/boot/extlinux/extlinux.conf
board/asus/tinker/readme.txt
+37
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@@ -0,0 +1,37 @@
Tinker RK3288
=============
Tinker Board is a Single Board Computer (SBC) in an ultra-small form
factor that offers class-leading performance while leveraging outstanding
mechanical compatibility.
Tinker link:
https://www.asus.com/in/Single-Board-Computer/Tinker-Board/
Wiki link:
https://openedev.amarulasolutions.com/display/ODWIKI/Tinker+RK3288
How to build it
===============
$ make asus_tinker_rk3288_defconfig
Then you can edit the build options using
$ make menuconfig
Compile all and build rootfs image:
$ make
Prepare your SDCard
===================
Buildroot generates a ready-to-use SD card image that you can flash directly to
the card. The image will be in output/images/sdcard.img.
You can write this image directly to an SD card device (i.e. /dev/xxx):
$ sudo dd if=output/images/sdcard.img of=/dev/xxx
$ sudo sync
Finally, you can insert the SD card to the Tinker RK3288 board and boot it.
board/atmel/at91sam9x5ek_mmc/genimage.cfg
+40
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@@ -0,0 +1,40 @@
# Image for SD card boot on Atmel at91sam9x5ek boards
#
image boot.vfat {
vfat {
files = {
"zImage",
"at91sam9g15ek.dtb",
"at91sam9g25ek.dtb",
"at91sam9g35ek.dtb",
"at91sam9x25ek.dtb",
"at91sam9x35ek.dtb",
"boot.bin",
"u-boot.bin"
}
file uboot.env {
image = "uboot-env.bin"
}
}
size = 16M
}
image sdcard.img {
hdimage {
}
partition boot {
partition-type = 0xC
bootable = "true"
image = "boot.vfat"
offset = 1M
}
partition rootfs {
partition-type = 0x83
image = "rootfs.ext4"
size = 512M
}
}
board/atmel/at91sam9x5ek_mmc/uboot-env.txt
+7
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@@ -0,0 +1,7 @@
bootargs=console=ttyS0,115200 root=/dev/mmcblk0p2 rw rootfstype=ext4 rootwait video=Unknown-1:800x480-16
bootcmd=fatload mmc 0:1 0x21000000 at91sam9g35ek.dtb; fatload mmc 0:1 0x22000000 zImage; bootz 0x22000000 - 0x21000000
bootdelay=1
ethact=gmac0
stderr=serial
stdin=serial
stdout=serial
board/atmel/flasher.sh
Executable
+145
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@@ -0,0 +1,145 @@
#!/usr/bin/env bash
BUILDIR=$1
TTY=$2
BOARD=$3
family_at91sam9260ek="at91sam9260ek"
mach_at91sam9260ek="at91sam9260-ek"
dtb_at91sam9260ek="at91sam9260ek.dtb"
family_at91sam9g45m10ek="at91sam9m10g45ek"
mach_at91sam9g45m10ek="at91sam9m10-g45-ek"
dtb_at91sam9g45m10ek="at91sam9m10g45ek.dtb"
family_at91sam9rlek="at91sam9rlek"
mach_at91sam9rlek="at91sam9rl64-ek"
dtb_at91sam9rlek="at91sam9rlek.dtb"
family_at91sam9g15ek="at91sam9x5ek"
mach_at91sam9g15ek="at91sam9g15-ek"
dtb_at91sam9g15ek="at91sam9g15ek.dtb"
family_at91sam9g20ek="at91sam9g20ek"
mach_at91sam9g20ek="at91sam9g20-ek"
dtb_at91sam9g20ek="at91sam9g20ek.dtb"
family_at91sam9g25ek="at91sam9x5ek"
mach_at91sam9g25ek="at91sam9g25-ek"
dtb_at91sam9g25ek="at91sam9g25ek.dtb"
family_at91sam9g35ek="at91sam9x5ek"
mach_at91sam9g35ek="at91sam9g35-ek"
dtb_at91sam9g35ek="at91sam9g35ek.dtb"
family_at91sam9x25ek="at91sam9x5ek"
mach_at91sam9x25ek="at91sam9x25-ek"
dtb_at91sam9x25ek="at91sam9x25ek.dtb"
family_at91sam9x35ek="at91sam9x5ek"
mach_at91sam9x35ek="at91sam9x35-ek"
dtb_at91sam9x35ek="at91sam9x35ek.dtb"
family_sama5d31ek="sama5d3xek"
mach_sama5d31ek="at91sama5d3x-ek"
dtb_sama5d31ek="sama5d31ek.dtb"
family_sama5d31ek_revc="sama5d3xek"
mach_sama5d31ek_revc="at91sama5d3x-ek"
dtb_sama5d31ek_revc="sama5d31ek_revc.dtb"
family_sama5d33ek="sama5d3xek"
mach_sama5d33ek="at91sama5d3x-ek"
dtb_sama5d33ek="sama5d33ek.dtb"
family_sama5d33ek_revc="sama5d3xek"
mach_sama5d33ek_revc="at91sama5d3x-ek"
dtb_sama5d33ek_revc="sama5d33ek_revc.dtb"
family_sama5d34ek="sama5d3xek"
mach_sama5d34ek="at91sama5d3x-ek"
dtb_sama5d34ek="sama5d34ek.dtb"
family_sama5d34ek_revc="sama5d3xek"
mach_sama5d34ek_revc="at91sama5d3x-ek"
dtb_sama5d34ek_revc="sama5d34ek_revc.dtb"
family_sama5d35ek="sama5d3xek"
mach_sama5d35ek="at91sama5d3x-ek"
dtb_sama5d35ek="sama5d35ek.dtb"
family_sama5d35ek_revc="sama5d3xek"
mach_sama5d35ek_revc="at91sama5d3x-ek"
dtb_sama5d35ek_revc="sama5d35ek_revc.dtb"
family_sama5d36ek="sama5d3xek"
mach_sama5d36ek="at91sama5d3x-ek"
dtb_sama5d36ek="sama5d36ek.dtb"
family_sama5d36ek_revc="sama5d3xek"
mach_sama5d36ek_revc="at91sama5d3x-ek"
dtb_sama5d36ek_revc="sama5d36ek_revc.dtb"
family_sama5d3_xplained="sama5d3_xplained"
mach_sama5d3_xplained="at91sama5d3x-xplained"
dtb_sama5d3_xplained="at91-sama5d3_xplained.dtb"
family_sama5d4ek="sama5d4ek"
mach_sama5d4ek="at91sama5d4x-ek"
dtb_sama5d4ek="at91-sama5d4ek.dtb"
family_sama5d4_xplained="sama5d4_xplained"
mach_sama5d4_xplained="at91sama5d4x-ek"
dtb_sama5d4_xplained="at91-sama5d4_xplained.dtb"
usage() {
cat << EOF
Usage:
$0 <builddir_path> <interface> <board>
Available boards:
at91sam9260ek
at91sam9g45m10ek
at91sam9rlek
at91sam9g15ek
at91sam9g20ek
at91sam9g25ek
at91sam9x25ek
at91sam9g35ek
at91sam9x35ek
sama5d31ek
sama5d33ek
sama5d34ek
sama5d35ek
sama5d36ek
sama5d31ek_revc (Until rev. C)
sama5d33ek_revc (Until rev. C)
sama5d34ek_revc (Until rev. C)
sama5d35ek_revc (Until rev. C)
sama5d36ek_revc (Until rev. C)
sama5d3_xplained
sama5d4ek
sama5d4_xplained
Example:
$0 ./output /dev/ttyACM0 at91sam9g45m10ek
EOF
}
F="family_$BOARD"
M="mach_$BOARD"
D="dtb_$BOARD"
if [[ $# != 3 || -z ${!F} ]]; then
usage
exit 1
fi
video_mode="video=LVDS-1:800x480-16"
if [[ $BOARD == "*pda4" ]]; then
video_mode="video=LVDS-1:480x272-16"
fi
echo "Executing: ${!F} O=$1/images $1/host/bin/sam-ba $TTY ${!M} $(dirname $0)/nandflash.tcl -- ${!F} ${!D} $video_mode"
export O=$1/images
$1/host/bin/sam-ba $TTY ${!M} $(dirname $0)/nandflash.tcl -- ${!F} ${!D} $video_mode
board/atmel/nandflash.tcl
+358
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# ----------------------------------------------------------------------------
# ATMEL Microcontroller
# ----------------------------------------------------------------------------
# Copyright (c) 2015, Atmel Corporation
#
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are met:
#
# - Redistributions of source code must retain the above copyright notice,
# this list of conditions and the disclaimer below.
#
# Atmel's name may not be used to endorse or promote products derived from
# this software without specific prior written permission.
#
# DISCLAIMER: THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR
# IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE
# DISCLAIMED. IN NO EVENT SHALL ATMEL BE LIABLE FOR ANY DIRECT, INDIRECT,
# INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA,
# OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
# LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
# NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
# EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
# ----------------------------------------------------------------------------
################################################################################
# Script data
################################################################################
# DBGU address for rm9200, 9260/9g20, 9261/9g10, 9rl, 9x5
set at91_base_dbgu0 0xfffff200
# DBGU address for 9263, 9g45, sama5d3
set at91_base_dbgu1 0xffffee00
# DBGU address for sama5d4
set at91_base_dbgu2 0xfc069000
set arch_exid_offset 0x44
# arch id
set arch_id_at91sam9g20 0x019905a0
set arch_id_at91sam9g45 0x819b05a0
set arch_id_at91sam9x5 0x819a05a0
set arch_id_at91sam9n12 0x819a07a0
set arch_id_sama5d3 0x8a5c07c0
## Find out at91sam9x5 variant to load the corresponding dtb file
array set at91sam9x5_variant {
0x00000000 at91sam9g15
0x00000001 at91sam9g35
0x00000002 at91sam9x35
0x00000003 at91sam9g25
0x00000004 at91sam9x25
}
## Find out sama5d3 variant to load the corresponding dtb file
array set sama5d3_variant {
0x00444300 sama5d31
0x00414300 sama5d33
0x00414301 sama5d34
0x00584300 sama5d35
0x00004301 sama5d36
}
## Find out sama5d4 variant
array set sama5d4_variant {
0x00000001 sama5d41
0x00000002 sama5d42
0x00000003 sama5d43
0x00000004 sama5d44
}
################################################################################
# proc uboot_env: Convert u-boot variables in a string ready to be flashed
# in the region reserved for environment variables
################################################################################
proc set_uboot_env {nameOfLstOfVar} {
upvar $nameOfLstOfVar lstOfVar
# sector size is the size defined in u-boot CFG_ENV_SIZE
set sectorSize [expr 0x20000 - 5]
set strEnv [join $lstOfVar "\0"]
while {[string length $strEnv] < $sectorSize} {
append strEnv "\0"
}
# \0 between crc and strEnv is the flag value for redundant environment
set strCrc [binary format i [::vfs::crc $strEnv]]
return "$strCrc\0$strEnv"
}
################################################################################
proc find_variant_name {boardType} {
global at91_base_dbgu0
global at91_base_dbgu1
global at91_base_dbgu2
global arch_exid_offset
global at91sam9x5_variant
global sama5d3_variant
global sama5d4_variant
set socName "none"
switch $boardType {
at91sam9x5ek {
set exidAddr [expr {$at91_base_dbgu0 + $arch_exid_offset}]
set chip_variant [format "0x%08x" [read_int $exidAddr]]
foreach {key value} [array get at91sam9x5_variant] {
if {$key == $chip_variant} {
set socName "$value"
break;
}
}
}
sama5d3xek {
set exidAddr [expr {$at91_base_dbgu1 + $arch_exid_offset}]
set chip_variant [format "0x%08x" [read_int $exidAddr]]
foreach {key value} [array get sama5d3_variant] {
#puts "-I- === $chip_variant ? $key ($value) ==="
if {$key == $chip_variant} {
set socName "$value"
break;
}
}
}
sama5d3_xplained {
set exidAddr [expr {$at91_base_dbgu1 + $arch_exid_offset}]
set chip_variant [format "0x%08x" [read_int $exidAddr]]
foreach {key value} [array get sama5d3_variant] {
#puts "-I- === $chip_variant ? $key ($value) ==="
if {$key == $chip_variant} {
set socName "$value"
break;
}
}
}
sama5d4ek {
set exidAddr [expr {$at91_base_dbgu2 + $arch_exid_offset}]
set chip_variant [format "0x%08x" [read_int $exidAddr]]
foreach {key value} [array get sama5d4_variant] {
#puts "-I- === $chip_variant ? $key ($value) ==="
if {$key == $chip_variant} {
set socName "$value"
break;
}
}
}
sama5d4_xplained {
set exidAddr [expr {$at91_base_dbgu2 + $arch_exid_offset}]
set chip_variant [format "0x%08x" [read_int $exidAddr]]
foreach {key value} [array get sama5d4_variant] {
#puts "-I- === $chip_variant ? $key ($value) ==="
if {$key == $chip_variant} {
set socName "$value"
break;
}
}
}
}
return "$socName"
}
proc find_variant_ecc {boardType} {
set eccType "none"
switch $boardType {
at91sam9x5ek {
set eccType 0xc0c00405
}
at91sam9n12ek {
set eccType 0xc0c00405
}
sama5d3xek {
set eccType 0xc0902405
}
sama5d3_xplained {
set eccType 0xc0902405
}
sama5d4ek {
set eccType 0xc1e04e07
}
sama5d4_xplained {
set eccType 0xc1e04e07
}
}
puts "-I- === eccType is $eccType ==="
return $eccType
}
proc get_kernel_load_addr {boardType} {
set kernel_load_addr 0x22000000
switch $boardType {
at91sam9m10g45ek {
set kernel_load_addr 0x72000000
}
}
return $kernel_load_addr
}
proc get_dtb_load_addr {boardType} {
set dtb_load_addr 0x21000000
switch $boardType {
at91sam9m10g45ek {
set dtb_load_addr 0x71000000
}
}
return $dtb_load_addr
}
################################################################################
# Main script: Load the linux demo in NandFlash,
# Update the environment variables
################################################################################
################################################################################
# check for proper variable initialization
if {! [info exists boardFamily]} {
puts "-I- === Parsing script arguments ==="
if {! [info exists env(O)]} {
puts "-E- === Binaries path not defined ==="
exit
}
set bootstrapFile "$env(O)/at91bootstrap.bin"
set ubootFile "$env(O)/u-boot.bin"
set kernelFile "$env(O)/zImage"
set rootfsFile "$env(O)/rootfs.ubi"
set build_uboot_env "yes"
set i 1
foreach arg $::argv {
puts "argument $i is $arg"
switch $i {
4 { set boardFamily $arg }
5 { set dtbFile "$env(O)/$arg" }
6 { set videoMode $arg }
}
incr i
}
}
puts "-I- === Board Family is $boardFamily ==="
set pmeccConfig [find_variant_ecc $boardFamily]
## Now check for the needed files
if {! [file exists $bootstrapFile]} {
puts "-E- === AT91Bootstrap file not found ==="
exit
}
if {! [file exists $ubootFile]} {
puts "-E- === U-Boot file not found ==="
exit
}
if {! [file exists $kernelFile]} {
puts "-E- === Linux kernel file not found ==="
exit
}
if {! [file exists $dtbFile]} {
puts "-E- === Device Tree binary: $dtbFile file not found ==="
exit
}
if {! [file exists $rootfsFile]} {
puts "-E- === Rootfs file not found ==="
exit
}
## NandFlash Mapping
set bootStrapAddr 0x00000000
set ubootAddr 0x00040000
set ubootEnvAddr 0x000c0000
set dtbAddr 0x00180000
set kernelAddr 0x00200000
set rootfsAddr 0x00800000
## u-boot variable
set kernelLoadAddr [get_kernel_load_addr $boardFamily]
set dtbLoadAddr [get_dtb_load_addr $boardFamily]
## NandFlash Mapping
set kernelSize [format "0x%08X" [file size $kernelFile]]
set dtbSize [format "0x%08X" [file size $dtbFile]]
set bootCmd "bootcmd=nand read $dtbLoadAddr $dtbAddr $dtbSize; nand read $kernelLoadAddr $kernelAddr $kernelSize; bootz $kernelLoadAddr - $dtbLoadAddr"
set rootfsSize [format "0x%08X" [file size $rootfsFile]]
lappend u_boot_variables \
"bootdelay=1" \
"baudrate=115200" \
"stdin=serial" \
"stdout=serial" \
"stderr=serial" \
"bootargs=console=ttyS0,115200 mtdparts=atmel_nand:256k(bootstrap)ro,512k(uboot)ro,256k(env),256k(env_redundant),256k(spare),512k(dtb),6M(kernel)ro,-(rootfs) rootfstype=ubifs ubi.mtd=7 root=ubi0:rootfs rw $videoMode" \
"$bootCmd"
## Additional files to load
set ubootEnvFile "ubootEnvtFileNandFlash.bin"
## Start flashing procedure ##################################################
puts "-I- === Initialize the NAND access ==="
NANDFLASH::Init
if {$pmeccConfig != "none"} {
puts "-I- === Enable PMECC OS Parameters ==="
NANDFLASH::NandHeaderValue HEADER $pmeccConfig
}
puts "-I- === Erase all the NAND flash blocs and test the erasing ==="
NANDFLASH::EraseAllNandFlash
puts "-I- === Load AT91Bootstrap in the first sector ==="
if {$pmeccConfig != "none"} {
NANDFLASH::SendBootFilePmeccCmd $bootstrapFile
} else {
NANDFLASH::sendBootFile $bootstrapFile
}
puts "-I- === Load u-boot in the next sectors ==="
send_file {NandFlash} "$ubootFile" $ubootAddr 0
if {$build_uboot_env == "yes"} {
puts "-I- === Load the u-boot environment variables ==="
set fh [open "$ubootEnvFile" w]
fconfigure $fh -translation binary
puts -nonewline $fh [set_uboot_env u_boot_variables]
close $fh
send_file {NandFlash} "$ubootEnvFile" $ubootEnvAddr 0
}
puts "-I- === Load the Kernel image and device tree database ==="
send_file {NandFlash} "$dtbFile" $dtbAddr 0
send_file {NandFlash} "$kernelFile" $kernelAddr 0
if {$pmeccConfig != "none"} {
puts "-I- === Enable trimffs ==="
NANDFLASH::NandSetTrimffs 1
}
puts "-I- === Load the linux file system ==="
send_file {NandFlash} "$rootfsFile" $rootfsAddr 0
puts "-I- === DONE. ==="
board/atmel/readme.txt
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This document explains how to set up a basic Buildroot system on
various Atmel/Microchip boards. Additional details can also be found
on the Linux4SAM website: http://www.linux4sam.org
This guide covers the following configurations:
- at91sam9g45m10ek_defconfig
- at91sam9rlek_defconfig
- at91sam9x5ek_defconfig (at91sam9g15, at91sam9g25, at91sam9x25,
at91sam9g35 and at91sam9x35)
- atmel_sama5d3xek_defconfig (sama5d31, sama5d33, sama5d34, sama5d35,
sama5d36)
- atmel_sama5d3_xplained_defconfig
- atmel_sama5d3_xplained_dev_defconfig
- atmel_sama5d3_xplained_mmc_defconfig
- atmel_sama5d3_xplained_mmc_dev_defconfig
- atmel_sama5d4_xplained_defconfig
- atmel_sama5d4_xplained_dev_defconfig
- atmel_sama5d4_xplained_mmc_defconfig
- atmel_sama5d4_xplained_mmc_dev_defconfig
- atmel_sama5d2_xplained_mmc_defconfig
- atmel_sama5d2_xplained_mmc_dev_defconfig
- microchip_sama5d27_wlsom1_ek_mmc_defconfig
- microchip_sama5d27_wlsom1_ek_mmc_dev_defconfig
- microchip_sam9x60ek_mmc_defconfig
- microchip_sam9x60ek_mmc_dev_defconfig
- microchip_sama5d2_icp_mmc_defconfig
- microchip_sama5d2_icp_mmc_dev_defconfig
These configurations will use AT91Bootstrap, u-boot and a linux kernel from
the git trees maintained by Atmel.
The configurations labeled as 'dev' provide a development rootfs with tools to
tests the features of the SoC:
- ALSA tools to test audio
- FFMPEG to record video from the ISI/ISC
- I2C, SPI, CAN, etc. tools
- modetest for LCD screens, HDMI
- Wilc1000/Wilc3000 firmware for the Atmel Wireless sdio module
- SSH for convenience
- GDB/GDB server for debug
Configuring and building Buildroot
==================================
For the Xplained/Evaluation Kit boards, the Buildroot configuration is
provided to boot from an SD card. Those configurations are labeled as
'mmc'. In this case, after building Buildroot, follow the instructions
in the "Preparing the SD card" section.
For the other configurations listed above, the Buildroot configuration
assumes the system will be flashed on NAND. In this case, after
building Buildroot, follow the instructions in the "Flashing the NAND
using SAM-BA" section below.
To configure and build Buildroot, run:
make <board>_defconfig
make
Flashing the NAND using SAM-BA
==============================
Flashing the board
------------------
Connect the board:
o at91sam9g45m10ek: DBGU: J10, USB sam-ba: J14
o at91sam9rlek: DBGU: J19, USB sam-ba: J21
o at91sam9x5ek: DBGU: J11, USB sam-ba: J20
o sama5d3xek: DBGU: J14, USB sam-ba: J20
o sama5d3 Xplained: DBGU: J23, USB sam-ba: J6
o sama5d4ek: DBGU: J22 or J24, USB sam-ba: J1
o sama5d4 Xplained: DBGU: J1, USB sam-ba: J11
Start the board in RomBOOT:
o at91sam9g45m10ek:
1. open JP8, JP10 and JP12
2. start the board
3. close JP8, JP10 and JP12
o at91sam9rlek:
1. J11 on 1-2 (BMS=1), open J12 and J13
2. start the board
3. close J12 and J13
o at91sam9x5ek:
1. open JP9 and:
- Cogent: open *NCS jumper
- Embest: open SW1
- Ronetix: open J1 and J2
2. start the board
3. close JP9 and:
- Cogent: close *NCS jumper
- Embest: close SW1 (ON position)
- Ronetix: close J1 and J2
o sama5d3xek:
1. start the board
2. push BP4 and BP1
3. release BP1
4. release BP4
o sama5d3 Xplained:
1. open JP5 (NANDCS) and JP6 (SPICS)
2. start the board
3. close JP5 ans JP6
o sama5d4ek:
1. start the board
2. push BP3 and BP4
3. release BP4
4. release BP3
o sama5d4 Xplained:
1. close JP7 (BOOT_DIS)
2. start the board
3. open JP7
"RomBOOT" should appear on your console (this should be ttyUSBx or ttyACMx)
Now locate the USB sam-ba interface it should be ttyACMx, usually ttyACM0
dmesg on your machine should give:
usb 1-2.1.4: New USB device found, idVendor=03eb, idProduct=6124
usb 1-2.1.4: New USB device strings: Mfr=0, Product=0, SerialNumber=0
cdc_acm 1-2.1.4:1.0: ttyACM0: USB ACM device
Look for idVendor=03eb, idProduct=6124, this is the interface you want to use.
You can then flash the board using the provided flasher.sh script in board/atmel:
board/atmel/flasher.sh <builddir_path> <interface> <board>
For example, for an out of tree build made in
/tmp/atmel_sama5d3_xplained/ for the sama5d3 Xplained, you would use:
board/atmel/flasher.sh /tmp/atmel_sama5d3_xplained/ /dev/ttyACM0 sama5d3_xplained
Reboot, the system should boot up to the buildroot login invite.
Preparing the SD card
=====================
An image named sdcard.img is automatically generated. With this image,
you no longer have to care about the creation of the partition and
copying files to the SD card.
You need at least a 1GB SD card. All the data on the SD card will be
lost. To copy the image on the SD card:
/!\ Caution be sure to do it on the right mmcblk device /!\
dd if=output/images/sdcard.img of=/dev/mmcblk0
Insert your SD card in your Xplained/Evaluation Kit board, and
enjoy. The default U-Boot environment will load properly the kernel
and Device Tree blob from the first partition of the SD card, so
everything works automatically.
By default a 16MB FAT partition is created. It contains at91bootstrap,
u-boot, the kernel image and all dtb variants for your board. The dtb
used is the basic one:
U-Boot> print
[...]
bootcmd=fatload mmc 1:1 0x21000000 at91-sama5d2_xplained.dtb; fatload mmc 1:1 0x22000000 zImage; bootz 0x22000000 - 0x21000000
[...]
If you want to use a variant such as the _pda7 one, you will have to
update your u-boot environment:
U-Boot> setenv bootcmd 'fatload mmc 1:1 0x21000000 at91-sama5d2_xplained_pda7.dtb; fatload mmc 1:1 0x22000000 zImage; bootz 0x22000000 - 0x21000000'
U-Boot> save
Saving Environment to FAT...
writing uboot.env
done
A 512MB ext4 partition is also created to store the rootfs generated.
If you want to customize the size of the partitions and their content,
take a look at the the genimage.cfg file in the board directory.
board/atmel/sama5d27_som1_ek_mmc/genimage.cfg
+32
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# Image for SD card boot on Atmel SAMA5D2 Xplained boards
#
image boot.vfat {
vfat {
files = {
"zImage",
"at91-sama5d27_som1_ek.dtb",
"boot.bin",
"u-boot.bin"
}
}
size = 16M
}
image sdcard.img {
hdimage {
}
partition boot {
partition-type = 0xC
bootable = "true"
image = "boot.vfat"
offset = 1M
}
partition rootfs {
partition-type = 0x83
image = "rootfs.ext4"
size = 512M
}
}
board/atmel/sama5d27_wlsom1_ek_mmc/genimage.cfg
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# Image for SD card boot on Microchip SAMA5D27 WLSOM1 EK
#
image boot.vfat {
vfat {
files = {
"zImage",
"at91-sama5d27_wlsom1_ek.dtb",
"boot.bin",
"u-boot.bin"
}
}
size = 16M
}
image sdcard.img {
hdimage {
}
partition boot {
partition-type = 0xC
bootable = "true"
image = "boot.vfat"
offset = 1M
}
partition rootfs {
partition-type = 0x83
image = "rootfs.ext4"
size = 512M
}
}
board/atmel/sama5d2_xplained_mmc/genimage.cfg
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# Image for SD card boot on Atmel SAMA5D2 Xplained boards
#
image boot.vfat {
vfat {
files = {
"zImage",
"at91-sama5d2_xplained.dtb",
"boot.bin",
"u-boot.bin"
}
}
size = 16M
}
image sdcard.img {
hdimage {
}
partition boot {
partition-type = 0xC
bootable = "true"
image = "boot.vfat"
offset = 1M
}
partition rootfs {
partition-type = 0x83
image = "rootfs.ext4"
size = 512M
}
}
board/atmel/sama5d3_xplained_mmc/genimage.cfg
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# Image for SD card boot on Atmel SAMA5D3 Xplained boards
#
image boot.vfat {
vfat {
files = {
"zImage",
"at91-sama5d3_xplained.dtb",
"boot.bin",
"u-boot.bin"
}
}
size = 16M
}
image sdcard.img {
hdimage {
}
partition boot {
partition-type = 0xC
bootable = "true"
image = "boot.vfat"
offset = 1M
}
partition rootfs {
partition-type = 0x83
image = "rootfs.ext4"
size = 512M
}
}
board/atmel/sama5d4_xplained_mmc/genimage.cfg
+32
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@@ -0,0 +1,32 @@
# Image for SD card boot on Atmel SAMA5D4 Xplained boards
#
image boot.vfat {
vfat {
files = {
"zImage",
"at91-sama5d4_xplained.dtb",
"boot.bin",
"u-boot.bin"
}
}
size = 16M
}
image sdcard.img {
hdimage {
}
partition boot {
partition-type = 0xC
bootable = "true"
image = "boot.vfat"
offset = 1M
}
partition rootfs {
partition-type = 0x83
image = "rootfs.ext4"
size = 512M
}
}
board/avnet/s6lx9_microboard/lx9_mmu.dts
+247
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@@ -0,0 +1,247 @@
/*
* Device Tree Generator version: 1.3
*
* (C) Copyright 2007-2008 Xilinx, Inc.
* (C) Copyright 2007-2009 Michal Simek
*
* Michal SIMEK <monstr@monstr.eu>
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; either version 2 of
* the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston,
* MA 02111-1307 USA
*
* CAUTION: This file is automatically generated by libgen.
* Version: Xilinx EDK 13.2 EDK_O.61xd
*
* XPS project directory: device-tree_bsp_230-orig
*/
/dts-v1/;
/ {
#address-cells = <1>;
#size-cells = <1>;
compatible = "xlnx,microblaze";
model = "testing";
MCB3_LPDDR: memory@80000000 {
device_type = "memory";
reg = < 0x80000000 0x4000000 >;
} ;
aliases {
ethernet0 = &Ethernet_MAC;
serial0 = &USB_Uart;
} ;
chosen {
bootargs = "console=ttyUL0";
linux,stdout-path = "/axi@0/serial@40600000";
} ;
cpus {
#address-cells = <1>;
#cpus = <0x1>;
#size-cells = <0>;
microblaze_0: cpu@0 {
clock-frequency = <66666667>;
compatible = "xlnx,microblaze-8.20.a";
d-cache-baseaddr = <0x80000000>;
d-cache-highaddr = <0x83ffffff>;
d-cache-line-size = <0x10>;
d-cache-size = <0x2000>;
device_type = "cpu";
i-cache-baseaddr = <0x80000000>;
i-cache-highaddr = <0x83ffffff>;
i-cache-line-size = <0x10>;
i-cache-size = <0x2000>;
model = "microblaze,8.20.a";
reg = <0>;
timebase-frequency = <66666667>;
xlnx,addr-tag-bits = <0xd>;
xlnx,allow-dcache-wr = <0x1>;
xlnx,allow-icache-wr = <0x1>;
xlnx,area-optimized = <0x0>;
xlnx,avoid-primitives = <0x0>;
xlnx,branch-target-cache-size = <0x0>;
xlnx,cache-byte-size = <0x2000>;
xlnx,d-axi = <0x1>;
xlnx,d-lmb = <0x1>;
xlnx,d-plb = <0x0>;
xlnx,data-size = <0x20>;
xlnx,dcache-addr-tag = <0xd>;
xlnx,dcache-always-used = <0x1>;
xlnx,dcache-byte-size = <0x2000>;
xlnx,dcache-data-width = <0x0>;
xlnx,dcache-force-tag-lutram = <0x0>;
xlnx,dcache-interface = <0x0>;
xlnx,dcache-line-len = <0x4>;
xlnx,dcache-use-fsl = <0x0>;
xlnx,dcache-use-writeback = <0x0>;
xlnx,dcache-victims = <0x0>;
xlnx,debug-enabled = <0x1>;
xlnx,div-zero-exception = <0x0>;
xlnx,dynamic-bus-sizing = <0x1>;
xlnx,ecc-use-ce-exception = <0x0>;
xlnx,edge-is-positive = <0x1>;
xlnx,endianness = <0x1>;
xlnx,family = "spartan6";
xlnx,fault-tolerant = <0x0>;
xlnx,fpu-exception = <0x0>;
xlnx,freq = <0x3f940ab>;
xlnx,fsl-data-size = <0x20>;
xlnx,fsl-exception = <0x0>;
xlnx,fsl-links = <0x0>;
xlnx,i-axi = <0x0>;
xlnx,i-lmb = <0x1>;
xlnx,i-plb = <0x0>;
xlnx,icache-always-used = <0x1>;
xlnx,icache-data-width = <0x0>;
xlnx,icache-force-tag-lutram = <0x0>;
xlnx,icache-interface = <0x0>;
xlnx,icache-line-len = <0x4>;
xlnx,icache-streams = <0x0>;
xlnx,icache-use-fsl = <0x0>;
xlnx,icache-victims = <0x0>;
xlnx,ill-opcode-exception = <0x0>;
xlnx,instance = "microblaze_0";
xlnx,interconnect = <0x2>;
xlnx,interconnect-m-axi-dc-aw-register = <0x0>;
xlnx,interconnect-m-axi-dc-read-issuing = <0x2>;
xlnx,interconnect-m-axi-dc-w-register = <0x0>;
xlnx,interconnect-m-axi-dc-write-issuing = <0x20>;
xlnx,interconnect-m-axi-dp-read-issuing = <0x1>;
xlnx,interconnect-m-axi-dp-write-issuing = <0x1>;
xlnx,interconnect-m-axi-ic-read-issuing = <0x2>;
xlnx,interconnect-m-axi-ip-read-issuing = <0x1>;
xlnx,interrupt-is-edge = <0x0>;
xlnx,lockstep-slave = <0x0>;
xlnx,mmu-dtlb-size = <0x1>;
xlnx,mmu-itlb-size = <0x1>;
xlnx,mmu-privileged-instr = <0x0>;
xlnx,mmu-tlb-access = <0x3>;
xlnx,mmu-zones = <0x2>;
xlnx,number-of-pc-brk = <0x1>;
xlnx,number-of-rd-addr-brk = <0x0>;
xlnx,number-of-wr-addr-brk = <0x0>;
xlnx,opcode-0x0-illegal = <0x0>;
xlnx,optimization = <0x0>;
xlnx,pvr = <0x0>;
xlnx,pvr-user1 = <0x0>;
xlnx,pvr-user2 = <0x0>;
xlnx,reset-msr = <0x0>;
xlnx,sco = <0x0>;
xlnx,stream-interconnect = <0x0>;
xlnx,unaligned-exceptions = <0x0>;
xlnx,use-barrel = <0x1>;
xlnx,use-branch-target-cache = <0x0>;
xlnx,use-dcache = <0x1>;
xlnx,use-div = <0x0>;
xlnx,use-ext-brk = <0x1>;
xlnx,use-ext-nm-brk = <0x1>;
xlnx,use-extended-fsl-instr = <0x0>;
xlnx,use-fpu = <0x0>;
xlnx,use-hw-mul = <0x1>;
xlnx,use-icache = <0x1>;
xlnx,use-interrupt = <0x1>;
xlnx,use-mmu = <0x3>;
xlnx,use-msr-instr = <0x1>;
xlnx,use-pcmp-instr = <0x0>;
xlnx,use-stack-protection = <0x0>;
} ;
} ;
axi4lite_0: axi@0 {
#address-cells = <1>;
#size-cells = <1>;
compatible = "xlnx,axi-interconnect-1.03.a", "simple-bus";
ranges ;
Ethernet_MAC: ethernet@40e00000 {
compatible = "xlnx,axi-ethernetlite-1.00.a", "xlnx,xps-ethernetlite-1.00.a";
device_type = "network";
interrupt-parent = <&microblaze_0_intc>;
interrupts = < 2 0 >;
local-mac-address = [ 00 0a 35 aa de 00 ];
// phy-handle = <&phy0>;
reg = < 0x40e00000 0x10000 >;
xlnx,duplex = <0x1>;
xlnx,family = "spartan6";
xlnx,include-global-buffers = <0x0>;
xlnx,include-internal-loopback = <0x0>;
xlnx,include-mdio = <0x1>;
xlnx,include-phy-constraints = <0x1>;
xlnx,interconnect-s-axi-read-acceptance = <0x1>;
xlnx,interconnect-s-axi-write-acceptance = <0x1>;
xlnx,rx-ping-pong = <0x0>;
xlnx,s-axi-aclk-period-ps = <0x3a98>;
xlnx,s-axi-id-width = <0x1>;
xlnx,s-axi-supports-narrow-burst = <0x0>;
xlnx,tx-ping-pong = <0x0>;
/*
mdio {
#address-cells = <1>;
#size-cells = <0>;
phy0: phy@7 {
compatible = "marvell,88e1111";
device_type = "ethernet-phy";
reg = <7>;
} ;
} ;
*/
} ;
SPI_FLASH: spi@40a00000 {
compatible = "xlnx,axi-spi-1.01.a", "xlnx,xps-spi-2.00.a";
interrupt-parent = <&microblaze_0_intc>;
interrupts = < 1 2 >;
reg = < 0x40a00000 0x10000 >;
xlnx,family = "spartan6";
xlnx,fifo-exist = <0x1>;
xlnx,num-ss-bits = <0x1>;
xlnx,num-transfer-bits = <0x8>;
xlnx,sck-ratio = <0x4>;
} ;
USB_Uart: serial@40600000 {
clock-frequency = <66666667>;
compatible = "xlnx,axi-uartlite-1.02.a", "xlnx,xps-uartlite-1.00.a";
current-speed = <115200>;
device_type = "serial";
interrupt-parent = <&microblaze_0_intc>;
interrupts = < 3 0 >;
port-number = <0>;
reg = < 0x40600000 0x10000 >;
xlnx,baudrate = <0x1c200>;
xlnx,data-bits = <0x8>;
xlnx,family = "spartan6";
xlnx,odd-parity = <0x1>;
xlnx,s-axi-aclk-freq-hz = <0x3f940ab>;
xlnx,use-parity = <0x0>;
} ;
microblaze_0_intc: interrupt-controller@41200000 {
#interrupt-cells = <0x2>;
compatible = "xlnx,axi-intc-1.01.a", "xlnx,xps-intc-1.00.a";
interrupt-controller ;
reg = < 0x41200000 0x10000 >;
xlnx,kind-of-intr = <0xc>;
xlnx,num-intr-inputs = <0x4>;
} ;
system_timer: timer@41c00000 {
clock-frequency = <66666667>;
compatible = "xlnx,axi-timer-1.02.a", "xlnx,xps-timer-1.00.a";
interrupt-parent = <&microblaze_0_intc>;
interrupts = < 0 2 >;
reg = < 0x41c00000 0x10000 >;
xlnx,count-width = <0x20>;
xlnx,family = "spartan6";
xlnx,gen0-assert = <0x1>;
xlnx,gen1-assert = <0x1>;
xlnx,one-timer-only = <0x0>;
xlnx,trig0-assert = <0x1>;
xlnx,trig1-assert = <0x1>;
} ;
} ;
} ;
board/avnet/s6lx9_microboard/lx9_mmu_defconfig
+68
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CONFIG_EXPERIMENTAL=y
CONFIG_SYSVIPC=y
CONFIG_IKCONFIG=y
CONFIG_IKCONFIG_PROC=y
CONFIG_BLK_DEV_INITRD=y
CONFIG_INITRAMFS_SOURCE="rootfs.cpio"
CONFIG_INITRAMFS_COMPRESSION_GZIP=y
# CONFIG_CC_OPTIMIZE_FOR_SIZE is not set
CONFIG_EXPERT=y
CONFIG_KALLSYMS_ALL=y
CONFIG_KALLSYMS_EXTRA_PASS=y
# CONFIG_HOTPLUG is not set
# CONFIG_BASE_FULL is not set
# CONFIG_FUTEX is not set
# CONFIG_EPOLL is not set
# CONFIG_SIGNALFD is not set
# CONFIG_SHMEM is not set
CONFIG_SLAB=y
CONFIG_MODULES=y
CONFIG_MODULE_UNLOAD=y
# CONFIG_BLK_DEV_BSG is not set
# CONFIG_OPT_LIB_ASM is not set
CONFIG_KERNEL_BASE_ADDR=0x80000000
CONFIG_XILINX_MICROBLAZE0_FAMILY="spartan6"
CONFIG_XILINX_MICROBLAZE0_USE_MSR_INSTR=1
# CONFIG_XILINX_MICROBLAZE0_USE_PCMP_INSTR is not set
CONFIG_XILINX_MICROBLAZE0_USE_BARREL=1
CONFIG_XILINX_MICROBLAZE0_USE_HW_MUL=1
CONFIG_XILINX_MICROBLAZE0_HW_VER="8.20.a"
CONFIG_HZ_100=y
CONFIG_MMU=y
CONFIG_CMDLINE_BOOL=y
CONFIG_CMDLINE_FORCE=y
CONFIG_NET=y
CONFIG_PACKET=y
CONFIG_UNIX=y
CONFIG_INET=y
# CONFIG_INET_LRO is not set
# CONFIG_IPV6 is not set
CONFIG_PROC_DEVICETREE=y
CONFIG_BLK_DEV_RAM=y
CONFIG_BLK_DEV_RAM_SIZE=8192
CONFIG_NETDEVICES=y
CONFIG_NET_ETHERNET=y
CONFIG_XILINX_EMACLITE=y
# CONFIG_INPUT is not set
# CONFIG_SERIO is not set
# CONFIG_VT is not set
CONFIG_SERIAL_UARTLITE=y
CONFIG_SERIAL_UARTLITE_CONSOLE=y
# CONFIG_HW_RANDOM is not set
# CONFIG_HWMON is not set
# CONFIG_USB_SUPPORT is not set
CONFIG_EXT2_FS=y
# CONFIG_DNOTIFY is not set
CONFIG_NFS_FS=y
CONFIG_NFS_V3=y
CONFIG_CIFS=y
CONFIG_CIFS_STATS=y
CONFIG_CIFS_STATS2=y
CONFIG_PARTITION_ADVANCED=y
CONFIG_DEBUG_KERNEL=y
CONFIG_DETECT_HUNG_TASK=y
CONFIG_DEBUG_SLAB=y
CONFIG_DEBUG_SPINLOCK=y
CONFIG_DEBUG_INFO=y
CONFIG_EARLY_PRINTK=y
# CONFIG_CRYPTO_ANSI_CPRNG is not set
board/avnet/s6lx9_microboard/readme.txt
+70
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This is the buildroot board support for the Avnet Spartan6 LX9 MicroBoard.
The Avnet S6LX9 Microboard is a small USB-Stick sized module containing
a Spartan6 FPGA capable of running the Microblaze softcore processor
together with RAM and FLASH memory.
The board can be bought from Avnet (avnet.com) or from Trenz Electronic
(www.trenz-electronic.de) for a low price.
To run the Linux built with buildroot you have to install the FPGA bitfile
and u-boot as described in the tutorial AvtS6LX9MicroBoard_SW302_PetaLinux
available on http://www.em.avnet.com/s6microboard
On this site also is a forum containing information on how to build your own
Microblaze processor for the Microboard.
The image file (default name is simpleImage.lx9_mmu.ub) has to be copied
to your tftp folder (often /tftpboot/) or can be programmed into the
board's SPI flash.
Sample session:
$ make s6lx9_microboard_defconfig
$ make
$ cp build/linux-<version>/arch/microblaze/boot/simpleImage.lx9_mmu.ub /tftpboot/br12.2a.ub
$ minicom
<hit the reset button on the S6LX9 Microboard>
Icache:ON
Dcache:ON
U-Boot Start:0x83f00000
SF: Got idcode 20 ba 18 10 01
*** Warning - bad CRC, using default environment
Net: Xilinx_Emaclite
MAC: 00:0a:35:00:63:37
U-BOOT for Avnet-LX9-Microboard-AXI-tiny-13.1
BOOTP broadcast 1
DHCP client bound to address 192.168.11.122
Hit any key to stop autoboot: 0
U-Boot-PetaLinux> tftp br12.2a.ub
Using Xilinx_Emaclite device
TFTP from server 192.168.11.10; our IP address is 192.168.11.122
Filename 'br12.2a.ub'.
Load address: 0x80002000
Loading: #################################################################
#################################################################
#################################################################
#################################################################
#################################################################
##############################
done
Bytes transferred = 5207724 (4f76ac hex)
U-Boot-PetaLinux> bootm
## Booting kernel from Legacy Image at 80002000 ...
Image Name: Linux-3.1.0
Image Type: MicroBlaze Linux Kernel Image (uncompressed)
Data Size: 5207660 Bytes = 5 MB
Load Address: 80000000
Entry Point: 80000000
Verifying Checksum ... OK
Loading Kernel Image ... OK
OK
## Transferring control to Linux (at address 80000000), 0x80000000 ramdisk 0x00000000, FDT 0x00000000...
Early console on uartlite at 0x40600000
..... boot log skipped
Welcome to Microblaze Buildroot
Microblaze login:
board/bananapi/bananapi-m1/boot.cmd
+7
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@@ -0,0 +1,7 @@
setenv bootargs console=ttyS0,115200 earlyprintk root=/dev/mmcblk0p2 rootwait
mmc dev 0
fatload mmc 0 $kernel_addr_r zImage
fatload mmc 0 $fdt_addr_r sun7i-a20-bananapi.dtb
bootz $kernel_addr_r - $fdt_addr_r
board/bananapi/bananapi-m1/genimage.cfg
+34
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@@ -0,0 +1,34 @@
image boot.vfat {
vfat {
files = {
"zImage",
"sun7i-a20-bananapi.dtb",
"boot.scr"
}
}
size = 64M
}
image sdcard.img {
hdimage {
}
partition u-boot {
in-partition-table = "no"
image = "u-boot-sunxi-with-spl.bin"
offset = 8K
size = 1016K # 1MB - 8KB
}
partition boot {
partition-type = 0xC
bootable = "true"
image = "boot.vfat"
}
partition rootfs {
partition-type = 0x83
image = "rootfs.ext4"
}
}
board/bananapi/bananapi-m1/readme.txt
+37
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@@ -0,0 +1,37 @@
Intro
=====
This default configuration will allow you to start experimenting with the
buildroot environment for the Bananapi M1. With the current configuration
it will bring-up the board, and allow access through the serial console.
Bananapi M1 link:
http://www.banana-pi.org/m1.html
Wiki link:
https://openedev.amarulasolutions.com/display/ODWIKI/Bananapi+M1
This configuration uses U-Boot mainline and kernel mainline.
How to build
============
$ make bananapi_m1_defconfig
$ make
Note: you will need access to the internet to download the required
sources.
How to write the SD card
========================
Once the build process is finished you will have an image called "sdcard.img"
in the output/images/ directory.
Copy the bootable "sdcard.img" onto an SD card with "dd":
$ sudo dd if=output/images/sdcard.img of=/dev/sdX
$ sudo sync
Insert the micro SDcard in your Bananapi M1 and power it up. The console
is on the serial line, 115200 8N1.
board/bananapi/bananapi-m2-ultra/boot.cmd
+7
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@@ -0,0 +1,7 @@
setenv bootargs console=ttyS0,115200 earlyprintk root=/dev/mmcblk0p2 rootwait
mmc dev 0
fatload mmc 0 $kernel_addr_r zImage
fatload mmc 0 $fdt_addr_r sun8i-r40-bananapi-m2-ultra.dtb
bootz $kernel_addr_r - $fdt_addr_r
board/bananapi/bananapi-m2-ultra/genimage.cfg
+34
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@@ -0,0 +1,34 @@
image boot.vfat {
vfat {
files = {
"zImage",
"sun8i-r40-bananapi-m2-ultra.dtb",
"boot.scr"
}
}
size = 64M
}
image sdcard.img {
hdimage {
}
partition u-boot {
in-partition-table = "no"
image = "u-boot-sunxi-with-spl.bin"
offset = 8K
size = 1016K # 1MB - 8KB
}
partition boot {
partition-type = 0xC
bootable = "true"
image = "boot.vfat"
}
partition rootfs {
partition-type = 0x83
image = "rootfs.ext4"
}
}
board/bananapi/bananapi-m2-ultra/readme.txt
+35
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Intro
=====
This default configuration will allow you to start experimenting with the
buildroot environment for the Bananapi M2 ULtra. With the current
configuration it will bring-up the board, and allow access through the
serial console.
Bananapi M2 Ultra link:
http://www.banana-pi.org/m2u.html
This configuration uses U-Boot mainline and kernel mainline.
How to build
============
$ make bananapi_m2_ultra_defconfig
$ make
Note: you will need access to the internet to download the required
sources.
How to write the SD card
========================
Once the build process is finished you will have an image called "sdcard.img"
in the output/images/ directory.
Copy the bootable "sdcard.img" onto an SD card with "dd":
$ sudo dd if=output/images/sdcard.img of=/dev/sdX
$ sudo sync
Insert the micro SDcard in your Bananapi M2 Ultra and power it up. The console
is on the serial line, 115200 8N1.
board/bananapi/bananapi-m2-zero/boot.cmd
+7
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@@ -0,0 +1,7 @@
setenv bootargs console=ttyS0,115200 earlyprintk root=/dev/mmcblk0p2 rootwait
mmc dev 0
fatload mmc 0 $kernel_addr_r zImage
fatload mmc 0 $fdt_addr_r sun8i-h2-plus-bananapi-m2-zero.dtb
bootz $kernel_addr_r - $fdt_addr_r
board/bananapi/bananapi-m2-zero/genimage.cfg
+34
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@@ -0,0 +1,34 @@
image boot.vfat {
vfat {
files = {
"zImage",
"sun8i-h2-plus-bananapi-m2-zero.dtb",
"boot.scr"
}
}
size = 64M
}
image sdcard.img {
hdimage {
}
partition u-boot {
in-partition-table = "no"
image = "u-boot-sunxi-with-spl.bin"
offset = 8K
size = 1016K # 1MB - 8KB
}
partition boot {
partition-type = 0xC
bootable = "true"
image = "boot.vfat"
}
partition rootfs {
partition-type = 0x83
image = "rootfs.ext4"
}
}
board/bananapi/bananapi-m2-zero/readme.txt
+34
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@@ -0,0 +1,34 @@
Intro
=====
This default configuration will allow you to start experimenting with the
Buildroot environment for the Bananapi M2 Zero. With the current configuration
it will bring-up the board, and allow access through the serial console.
Bananapi M2 Zero link:
http://www.banana-pi.org/m2z.html
This configuration uses U-Boot mainline and kernel mainline.
How to build
============
$ make bananapi_m2_zero_defconfig
$ make
Note: you will need access to the internet to download the required
sources.
How to write the SD card
========================
Once the build process is finished you will have an image called "sdcard.img"
in the output/images/ directory.
Copy the bootable "sdcard.img" onto an SD card with "dd":
$ sudo dd if=output/images/sdcard.img of=/dev/sdX
$ sync
Insert the micro SDcard in your Bananapi M2 Zero and power it up. The console
is on the Debug UART on the CON3 header, with serial settings 115200 8N1.
board/bananapi/bananapi-m64/boot.cmd
+6
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@@ -0,0 +1,6 @@
setenv bootargs console=ttyS0,115200 earlyprintk root=/dev/mmcblk0p2 rootwait
fatload mmc 0 $kernel_addr_r Image
fatload mmc 0 $fdt_addr_r sun50i-a64-bananapi-m64.dtb
booti $kernel_addr_r - $fdt_addr_r
board/bananapi/bananapi-m64/genimage.cfg
+40
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@@ -0,0 +1,40 @@
image boot.vfat {
vfat {
files = {
"Image",
"sun50i-a64-bananapi-m64.dtb",
"boot.scr"
}
}
size = 64M
}
image sdcard.img {
hdimage {
}
partition spl {
in-partition-table = "no"
image = "sunxi-spl.bin"
offset = 8K
}
partition u-boot {
in-partition-table = "no"
image = "u-boot.itb"
offset = 40K
size = 1M # 1MB - 40KB
}
partition boot {
partition-type = 0xC
bootable = "true"
image = "boot.vfat"
}
partition rootfs {
partition-type = 0x83
image = "rootfs.ext4"
}
}
board/bananapi/bananapi-m64/readme.txt
+37
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@@ -0,0 +1,37 @@
Intro
=====
This default configuration will allow you to start experimenting with the
buildroot environment for the Bananapi M64. With the current configuration
it will bring-up the board, and allow access through the serial console.
Bananapi M64 link:
http://www.banana-pi.org/m64.html
Wiki link:
https://openedev.amarulasolutions.com/display/ODWIKI/Bananapi+M64
This configuration uses U-Boot mainline and kernel mainline.
How to build
============
$ make bananapi_m64_defconfig
$ make
Note: you will need access to the internet to download the required
sources.
How to write the SD card
========================
Once the build process is finished you will have an image called "sdcard.img"
in the output/images/ directory.
Copy the bootable "sdcard.img" onto an SD card with "dd":
$ sudo dd if=output/images/sdcard.img of=/dev/sdX
$ sudo sync
Insert the micro SDcard in your Bananapi M64 and power it up. The console
is on the serial line, 115200 8N1.
board/beagleboardx15/genimage.cfg
+27
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@@ -0,0 +1,27 @@
image boot.vfat {
vfat {
files = {
"MLO",
"u-boot.img"
}
}
size = 4M
}
image sdcard.img {
hdimage {
}
partition u-boot {
partition-type = 0xC
bootable = "true"
image = "boot.vfat"
}
partition rootfs {
partition-type = 0x83
image = "rootfs.ext4"
size = 512M
}
}
board/beagleboardx15/readme.txt
+49
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@@ -0,0 +1,49 @@
BeagleBoard X15
Intro
=====
This config currently supports the beagleboard x15,
and generates a barebone image.
The image must be flashed to a SD card to be used.
How to build it
===============
$ make beagleboardx15_defconfig
Then you can edit the build options using
$ make menuconfig
Compile all and build a sdcard image:
$ make
Result of the build
-------------------
After building, you should get a tree like this:
output/images/
+-- am57xx-beagle-x15.dtb
+-- am57xx-beagle-x15-revb1.dtb
+-- boot.vfat
+-- MLO
+--rootfs.ext2
+-- rootfs.ext4
+-- rootfs.tar
+-- sdcard.img
+-- u-boot.img
+-- u-boot-spl.bin
+-- zImage
How to write the microSD card
=============================
Once the build process is finished you will have an image called "sdcard.img"
in the output/images/ directory.
Copy the bootable "sdcard.img" onto an SD card with "dd":
$ sudo dd if=output/images/sdcard.img of=/dev/sdX
board/beaglebone/genimage.cfg
+34
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@@ -0,0 +1,34 @@
image boot.vfat {
vfat {
files = {
"MLO",
"u-boot.img",
"zImage",
"uEnv.txt",
"am335x-evm.dtb",
"am335x-evmsk.dtb",
"am335x-bone.dtb",
"am335x-boneblack.dtb",
"am335x-bonegreen.dtb",
}
}
size = 16M
}
image sdcard.img {
hdimage {
}
partition u-boot {
partition-type = 0xC
bootable = "true"
image = "boot.vfat"
}
partition rootfs {
partition-type = 0x83
image = "rootfs.ext4"
size = 512M
}
}
board/beaglebone/linux-sgx.fragment
+13
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@@ -0,0 +1,13 @@
CONFIG_PREEMPT=y
CONFIG_PREEMPT_COUNT=y
CONFIG_OMAP2_DSS_INIT=y
CONFIG_OMAP_DSS_BASE=y
CONFIG_OMAP2_DSS=y
CONFIG_OMAP2_DSS_DPI=y
CONFIG_DRM_OMAP=y
CONFIG_DRM_OMAP_NUM_CRTCS=2
CONFIG_DRM_OMAP_WB_M2M=y
CONFIG_DRM_TILCDC=y
CONFIG_DRM_I2C_NXP_TDA998X=y
CONFIG_DRM=y
CONFIG_DRM_LEGACY=y
board/beaglebone/patches/linux/0001-keep-jtag-clock-alive-for-debugger.patch
+16
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@@ -0,0 +1,16 @@
This patch keeps the debugSS clock alive, it clocks the JTAG macro and enables
access to the SoC via JTAG after the kernel booted.
Signed-off-by: Lothar Felten <lothar.felten@gmail.com>
---
diff -Naur linux-orig/arch/arm/mach-omap2/omap_hwmod_33xx_data.c linux-52c4aa7cdb93d61f8008f380135beaf7b8fa6593/arch/arm/mach-omap2/omap_hwmod_33xx_data.c
--- linux-orig/arch/arm/mach-omap2/omap_hwmod_33xx_data.c 2015-10-02 17:30:56.000000000 +0200
+++ linux-52c4aa7cdb93d61f8008f380135beaf7b8fa6593/arch/arm/mach-omap2/omap_hwmod_33xx_data.c 2016-08-15 11:28:55.017617612 +0200
@@ -208,6 +208,7 @@
.name = "debugss",
.class = &am33xx_debugss_hwmod_class,
.clkdm_name = "l3_aon_clkdm",
+ .flags = (HWMOD_INIT_NO_IDLE|HWMOD_INIT_NO_RESET), /* keep debugSS clock alive for JTAG */
.main_clk = "trace_clk_div_ck",
.prcm = {
.omap4 = {
board/beaglebone/post-build.sh
Executable
+4
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@@ -0,0 +1,4 @@
#!/bin/sh
BOARD_DIR="$(dirname $0)"
cp $BOARD_DIR/uEnv.txt $BINARIES_DIR/uEnv.txt
board/beaglebone/readme.txt
+62
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@@ -0,0 +1,62 @@
CircuitCo BeagleBone
Texas Instuments AM335x Evaluation Module (TMDXEVM3358)
Description
===========
This configuration will build a complete image for the beaglebone and
the TI AM335x-EVM, the board type is identified by the on-board
EEPROM. The configuration is based on the
ti-processor-sdk-06.01.00.08. Device tree blobs for beaglebone
variants and the evm-sk are built too.
For Qt5 support support use the beaglebone_qt5_defconfig.
How to build it
===============
Select the default configuration for the target:
$ make beaglebone_defconfig
Optional: modify the configuration:
$ make menuconfig
Build:
$ make
Result of the build
===================
output/images/
+-- am335x-boneblack.dtb
+-- am335x-bone.dtb
+-- am335x-evm.dtb
+-- am335x-evmsk.dtb
+-- boot.vfat
+-- MLO
+-- rootfs.ext2
+-- rootfs.tar
+-- sdcard.img
+-- u-boot.img
+-- uEnv.txt
+-- zImage
To copy the image file to the sdcard use dd:
$ dd if=output/images/sdcard.img of=/dev/XXX
Running Qt5 hellowindow opengl demo:
===================
# export QT_QPA_EGLFS_KMS_CONFIG=/etc/qt5/eglfs_kms_cfg.json
# export QT_QPA_PLATFORM=eglfs
# export QT_QPA_EGLFS_INTEGRATION=none
# /usr/lib/qt/examples/opengl/hellowindow/hellowindow
Tested hardware
===============
am335x-evm (rev. 1.1A)
beagleboneblack (rev. A5A)
beaglebone (rev. A6)
2020, Adam Duskett <aduskett@gmail.com>
2016, Lothar Felten <lothar.felten@gmail.com>
board/beaglebone/rootfs_overlay/etc/qt5/eglfs_kms_cfg.json
+15
View File
@@ -0,0 +1,15 @@
{
"device": "/dev/dri/card0",
"hwcursor": false,
"pbuffers": true,
"outputs": [
{
"name": "VGA1",
"mode": "off"
},
{
"name": "HDMI1",
"mode": "1024x768"
}
]
}
board/beaglebone/uEnv.txt
+11
View File
@@ -0,0 +1,11 @@
bootpart=0:1
devtype=mmc
bootdir=
bootfile=zImage
bootpartition=mmcblk0p2
console=ttyS0,115200n8
loadaddr=0x82000000
fdtaddr=0x88000000
set_mmc1=if test $board_name = A33515BB; then setenv bootpartition mmcblk1p2; fi
set_bootargs=setenv bootargs console=${console} root=/dev/${bootpartition} rw rootfstype=ext4 rootwait
uenvcmd=run set_mmc1; run set_bootargs;run loadimage;run loadfdt;printenv bootargs;bootz ${loadaddr} - ${fdtaddr}
board/beagleboneai/genimage.cfg
+30
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@@ -0,0 +1,30 @@
image boot.vfat {
vfat {
files = {
"MLO",
"u-boot.img",
"zImage",
"am5729-beagleboneai.dtb",
"uEnv.txt"
}
}
size = 16M
}
image sdcard.img {
hdimage {
}
partition u-boot {
partition-type = 0xC
bootable = "true"
image = "boot.vfat"
}
partition rootfs {
partition-type = 0x83
image = "rootfs.ext4"
size = 512M
}
}
board/beagleboneai/patches/uboot/0001-BeagleBone-AI-support.patch
+1783
View File
File diff suppressed because it is too large Load Diff
board/beagleboneai/patches/uboot/0002-Remove-redundant-YYLOC-global-declaration.patch
+28
View File
@@ -0,0 +1,28 @@
From 018921ee79d3f30893614b3b2b63b588d8544f73 Mon Sep 17 00:00:00 2001
From: Peter Robinson <pbrobinson@gmail.com>
Date: Thu, 30 Jan 2020 09:37:15 +0000
Subject: [PATCH] Remove redundant YYLOC global declaration
Same as the upstream fix for building dtc with gcc 10.
Signed-off-by: Peter Robinson <pbrobinson@gmail.com>
Signed-off-by: Peter Korsgaard <peter@korsgaard.com>
---
scripts/dtc/dtc-lexer.l | 1 -
1 file changed, 1 deletion(-)
diff --git a/scripts/dtc/dtc-lexer.l b/scripts/dtc/dtc-lexer.l
index fd825ebba6..24af549977 100644
--- a/scripts/dtc/dtc-lexer.l
+++ b/scripts/dtc/dtc-lexer.l
@@ -38,7 +38,6 @@ LINECOMMENT "//".*\n
#include "srcpos.h"
#include "dtc-parser.tab.h"
-YYLTYPE yylloc;
extern bool treesource_error;
/* CAUTION: this will stop working if we ever use yyless() or yyunput() */
--
2.20.1
board/beagleboneai/post-build.sh
Executable
+4
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@@ -0,0 +1,4 @@
#!/bin/sh
BOARD_DIR="$(dirname $0)"
cp board/beagleboneai/uEnv.txt $BINARIES_DIR/uEnv.txt
board/beagleboneai/readme.txt
+28
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@@ -0,0 +1,28 @@
Intro
=====
This configuration will build a basic image for the BeagleBoard.org
BeagleBone AI. For more details about the board, visit:
https://beagleboard.org/ai
How to build it
===============
Configure Buildroot:
$ make beagleboneai_defconfig
Compile everything and build the USB flash drive image:
$ make
How to write the SD card
========================
Once the build process is finished you will have an image called "sdcard.img"
in the output/images/ directory.
Copy the bootable "sdcard.img" onto an SD card with "dd":
$ sudo dd if=output/images/sdcard.img of=/dev/sdX
board/beagleboneai/uEnv.txt
+6
View File
@@ -0,0 +1,6 @@
bootpart=0:1
bootdir=/
bootargs=console=ttyS0,115200n8 root=/dev/mmcblk0p2 ro rootwait
devtype=mmc
fdtfile=am5729-beagleboneai.dtb
uenvcmd=run loadimage; run loadfdt; printenv bootargs; bootz ${loadaddr} - ${fdtaddr}
board/beaglev/extlinux.conf
+4
View File
@@ -0,0 +1,4 @@
label linux
kernel /boot/Image
devicetree /boot/jh7100-beaglev-starlight.dtb
append console=ttyS0,115200 earlyprintk root=PARTUUID=0fef845a-c6e1-45bc-82f7-002fa720f958 rootwait
board/beaglev/genimage.cfg
+12
View File
@@ -0,0 +1,12 @@
image sdcard.img {
hdimage {
gpt = true
}
partition rootfs {
partition-type-uuid = 72ec70a6-cf74-40e6-bd49-4bda08e8f224
partition-uuid = 0fef845a-c6e1-45bc-82f7-002fa720f958
bootable = "true"
image = "rootfs.ext4"
}
}
board/beaglev/post-build.sh
Executable
+11
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@@ -0,0 +1,11 @@
#!/bin/sh
BOARD_DIR=$(dirname $0)
# Bring the extlinux.conf file in.
install -D -m 0644 ${BOARD_DIR}/extlinux.conf \
${TARGET_DIR}/boot/extlinux/extlinux.conf
# To be reflashed through Xmodem, the bootloader needs to be prepended
# with a 4-byte header that contains the total size of the file.
perl -e 'print pack("l", (stat @ARGV[0])[7])' ${BINARIES_DIR}/fw_payload.bin > ${BINARIES_DIR}/fw_payload.bin.out
cat ${BINARIES_DIR}/fw_payload.bin >> ${BINARIES_DIR}/fw_payload.bin.out
board/beaglev/readme.txt
+124
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@@ -0,0 +1,124 @@
BeagleV
=======
BeagleV is a low-cost RISC-V 64-bit based platform, powered by a
Starfive JH7100 processor. The current defconfig in Buildroot has been
tested with the JH7100 chip used on the beta version of the BeagleV
board.
How to build
============
$ make beaglev_defconfig
$ make
Build results
=============
After building, output/images contains:
+ bootloader-BEAGLEV-buildroot.bin.out
+ ddrinit-2133-buildroot.bin.out
+ Image
+ fw_payload.bin
+ fw_payload.bin.out
+ fw_payload.elf
+ rootfs.ext2
+ rootfs.ext4
+ sdcard.img
+ u-boot.bin
The four important files are:
- bootloader-BEAGLEV-buildroot.bin.out, the first stage bootloader
- ddrinit-2133-buildroot.bin.out, the DDR initialization firmware
- fw_payload.bin.out, which is the bootloader image, containing
both OpenSBI and U-Boot.
- sdcard.img, the SD card image, which contains the root filesystem,
kernel image and Device Tree.
Flashing the SD card image
==========================
$ sudo dd if=output/images/sdcard.img of=/dev/sdX
Preparing the board
===================
Connect the Beagle-V fan to the 5V supply (pin 2 or 4 of the GPIO
connector) and GND (pin 6 of the GPIO connector).
Connect a TTL UART cable to pin 8 (TX), 10 (RX) and 14 (GND).
Insert your SD card.
Power-up the board using an USB-C cable.
Flashing OpenSBI/U-Boot
=======================
The bootloader pre-flashed on the Beagle-V has a non-working
fdt_addr_r environment variable value, so it won't work
as-is. Reflashing the bootloader with the bootloader image produced by
Buildroot is necessary.
When the board starts up, a pre-loader shows a count down of 2
seconds, interrupt by pressing any key. You should reach a menu like
this:
--------8<----------
bootloader version:210209-4547a8d
ddr 0x00000000, 1M test
ddr 0x00100000, 2M test
DDR clk 2133M,Version: 210302-5aea32f
0
***************************************************
*************** FLASH PROGRAMMING *****************
***************************************************
0:update uboot
1:quit
select the function:
--------8<----------
Press 0 and Enter. You will now see "C" characters being
displayed. Ask your serial port communication program to send
fw_payload.bin.out using the Xmodem protocol.
After reflashing is complete, restart the board, it will automatically
start the system from the SD card, and reach the login prompt.
Flashing low-level bootloaders
==============================
The BeagleV comes pre-flashed with functional low-level bootloaders
(called "secondboot" and "ddrinit"). Re-flashing them is not necessary
to use this Buildroot defconfig. However, for the sake of
completeness, Buildroot builds and provides those low-level bootloader
images.
You can flash them as follows:
- In the same "pre-loader" menu as the one used above, instead of
entering 0 or 1, enter the magic "root@s5t" string. This enters the
"expert" features.
- Then, press 0 and send over X-modem the
bootloader-BEAGLEV-buildroot.bin.out file.
- Then, press 1 and send over X-modem the
ddrinit-2133-buildroot.bin.out.
Note that the reflashing mechanism itself relies on those low-level
bootloaders, so if you flash non-working versions, you'll have to go
through a recovery process. This requires wiring up to a separate
debug UART, which pins are located near the HDMI connector. See
https://wiki.seeedstudio.com/BeagleV-Update-bootloader-ddr-init-boot-uboot-Recover-bootloader/
section "Recover the bootloader" for more details. The instructions
make use of a jh7100-recover tool, which Buildroot has built as part
of this defconfig: it is available as output/host/bin/jh7100-recover.
board/beelink/gs1/extlinux.conf
+4
View File
@@ -0,0 +1,4 @@
label linux
kernel /Image
devicetree /sun50i-h6-beelink-gs1.dtb
append console=ttyS0,115200 earlyprintk root=/dev/mmcblk0p2 rootwait
board/beelink/gs1/genimage.cfg
+34
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@@ -0,0 +1,34 @@
image boot.vfat {
vfat {
files = {
"Image",
"sun50i-h6-beelink-gs1.dtb",
"extlinux"
}
}
size = 64M
}
image sdcard.img {
hdimage {
}
partition u-boot {
in-partition-table = "no"
image = "u-boot-sunxi-with-spl.bin"
offset = 8K
size = 1016K # 1MB - 8KB
}
partition boot {
partition-type = 0xC
bootable = "true"
image = "boot.vfat"
}
partition rootfs {
partition-type = 0x83
image = "rootfs.ext4"
}
}
board/beelink/gs1/post-build.sh
Executable
+4
View File
@@ -0,0 +1,4 @@
#!/bin/sh
BOARD_DIR="$(dirname $0)"
install -m 0644 -D $BOARD_DIR/extlinux.conf $BINARIES_DIR/extlinux/extlinux.conf
board/boundarydevices/common/boot.cmd
+170
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@@ -0,0 +1,170 @@
setenv bootargs ''
m4=''
kernelimage=zImage
bootcommand=bootz
a_base=0x10000000
#grab 1st 2/3 characters of string
setexpr cpu2 sub "^(..?).*" "\\1" "${imx_cpu}"
setexpr cpu3 sub "^(..?.?).*" "\\1" "${imx_cpu}"
if itest.s x51 == "x${cpu2}" ; then
a_base=0x90000000
elif itest.s x53 == "x${cpu2}"; then
a_base=0x70000000
elif itest.s x6SX == "x${cpu3}" || itest.s x6U == "x${cpu2}" || itest.s x7D == "x${cpu2}"; then
a_base=0x80000000
elif itest.s x8M == "x${cpu2}"; then
a_base=0x40000000
kernelimage=Image
bootcommand=booti
fi
if itest.s "x1" == "x${m4enabled}" ; then
run m4boot;
m4='-m4';
fi
setexpr a_script ${a_base} + 0x00800000
setexpr a_zImage ${a_base} + 0x00800000
setexpr a_fdt ${a_base} + 0x03000000
setexpr a_initrd ${a_base} + 0x03100000
setexpr a_reset_cause_marker ${a_base} + 0x80
setexpr a_reset_cause ${a_base} + 0x84
if itest.s "x" == "x${board}" ; then
echo "!!!! Error: Your u-boot is outdated. Please upgrade.";
exit;
fi
if itest.s "x" == "x${fdt_file}" ; then
if itest.s x51 == "x${cpu2}" ; then
fdt_file=imx51-${board}${m4}.dtb;
elif itest.s x53 == "x${cpu2}" ; then
fdt_file=imx53-${board}${m4}.dtb;
elif itest.s x6DL == "x${cpu3}" || itest.s x6SO == "x${cpu3}" ; then
fdt_file=imx6dl-${board}.dtb;
elif itest.s x6QP == "x${cpu3}" ; then
fdt_file=imx6qp-${board}.dtb;
elif itest.s x6SX == "x${cpu3}" ; then
fdt_file=imx6sx-${board}${m4}.dtb;
elif itest.s x6UL == "x${cpu3}" ; then
fdt_file=imx6ull-${board}.dtb;
elif itest.s x7D == "x${cpu2}" ; then
fdt_file=imx7d-${board}${m4}.dtb;
elif itest.s x8MM == "x${cpu3}" ; then
fdt_file=imx8mm-${board}${m4}.dtb;
elif itest.s x8MN == "x${cpu3}" ; then
fdt_file=imx8mn-${board}${m4}.dtb;
elif itest.s x8MP == "x${cpu3}" ; then
if itest *0x30360800 == 0x00824310 ; then
fdt_file=imx8mp-a0-${board}${m4}.dtb;
else
fdt_file=imx8mp-${board}${m4}.dtb;
fi
elif itest.s x8MQ == "x${cpu3}" ; then
fdt_file=imx8mq-${board}${m4}.dtb;
else
fdt_file=imx6q-${board}.dtb;
fi
fi
if itest.s x${distro_bootpart} == x ; then
distro_bootpart=1
fi
if load ${devtype} ${devnum}:${distro_bootpart} ${a_script} uEnv.txt ; then
env import -t ${a_script} ${filesize}
fi
if itest.s x${console} != x ; then
setenv bootargs ${bootargs} console=${console},115200
fi
if itest.s "x" == "x$vmalloc" ; then
vmalloc=400M
fi
if itest.s x${consoleblank} == x ; then
consoleblank=0
fi
setenv bootargs ${bootargs} vmalloc=${vmalloc} consoleblank=${consoleblank} rootwait fixrtc cpu=${imx_cpu} board=${board} uboot_release=${uboot_release}
if load ${devtype} ${devnum}:${distro_bootpart} ${a_fdt} ${prefix}${fdt_file} ; then
fdt addr ${a_fdt}
else
echo "!!!! Error loading ${prefix}${fdt_file}";
exit;
fi
fdt resize 4096
if itest.s "x" != "x${cmd_board}" ; then
run cmd_board
fi
if itest.s "x" != "x${cmd_custom}" ; then
run cmd_custom
fi
if itest.s "x" != "x${cmd_hdmi}" ; then
run cmd_hdmi
if itest.s x != x${allow_noncea} ; then
setenv bootargs ${bootargs} mxc_hdmi.only_cea=0;
echo "non-CEA modes allowed on HDMI, audio may be affected";
fi
fi
if itest.s "x" != "x${cmd_lcd}" ; then
run cmd_lcd
fi
if itest.s "x" != "x${cmd_lcd2}" ; then
run cmd_lcd2
fi
if itest.s "x" != "x${cmd_lvds}" ; then
run cmd_lvds
fi
if itest.s "x" != "x${cmd_lvds2}" ; then
run cmd_lvds2
fi
if itest.s "x" != "x${cmd_mipi}" ; then
run cmd_mipi
fi
if test "sata" = "${devtype}" ; then
setenv bootargs "${bootargs} root=/dev/sda${distro_bootpart}" ;
elif test "usb" = "${devtype}" ; then
setenv bootargs "${bootargs} root=/dev/sda${distro_bootpart}" ;
else
setenv bootargs "${bootargs} root=/dev/mmcblk${devnum}p${distro_bootpart}"
fi
if itest.s "x" != "x${disable_msi}" ; then
setenv bootargs ${bootargs} pci=nomsi
fi;
if itest.s "x" != "x${disable_giga}" ; then
setenv bootargs ${bootargs} fec.disable_giga=1
fi
if itest.s "x" != "x${wlmac}" ; then
setenv bootargs ${bootargs} wlcore.mac=${wlmac}
fi
if itest.s "x" != "x${gpumem}" ; then
setenv bootargs ${bootargs} galcore.contiguousSize=${gpumem}
fi
if itest.s "x" != "x${cma}" ; then
setenv bootargs ${bootargs} cma=${cma}
fi
if itest.s "x" != "x${loglevel}" ; then
setenv bootargs ${bootargs} loglevel=${loglevel}
fi
if itest.s "x" != "x${show_fdt}" ; then
fdt print /
fi
if itest.s "x" != "x${show_env}" ; then
printenv
fi
if load ${devtype} ${devnum}:${distro_bootpart} ${a_zImage} ${prefix}${kernelimage} ; then
${bootcommand} ${a_zImage} - ${a_fdt}
fi
echo "Error loading kernel image"
board/boundarydevices/common/genimage.cfg
+18
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@@ -0,0 +1,18 @@
# Minimal SD card image for Boundary Devices platforms
#
# It does not need a boot section for a bootloader since it is booted
# from its NOR flash memory.
#
# To update the bootloader, execute the following from U-Boot prompt:
# => run upgradeu
image sdcard.img {
hdimage {
}
partition rootfs {
partition-type = 0x83
image = "rootfs.ext4"
size = 512M
}
}
board/boundarydevices/common/post-build.sh
Executable
+29
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@@ -0,0 +1,29 @@
#!/bin/sh
# post-build fixups
# for further details, see
#
# http://boundarydevices.com/u-boot-on-i-mx6/
#
BOARD_DIR="$(dirname $0)"
UBOOT_DEFCONFIG="$(grep BR2_TARGET_UBOOT_BOARD_DEFCONFIG ${BR2_CONFIG} | sed 's/.*\"\(.*\)\"/\1/')"
if grep -Eq "^BR2_aarch64=y$" ${BR2_CONFIG}; then
MKIMAGE_ARCH=arm64
UBOOT_BINARY=imx8-boot-sd.bin
else
MKIMAGE_ARCH=arm
UBOOT_BINARY=u-boot.imx
fi
# bd u-boot looks for standard bootscript
$HOST_DIR/bin/mkimage -A $MKIMAGE_ARCH -O linux -T script -C none -a 0 -e 0 \
-n "boot script" -d $BOARD_DIR/boot.cmd $TARGET_DIR/boot/boot.scr
# u-boot / update script for bd upgradeu command
if [ -e $BINARIES_DIR/$UBOOT_BINARY ]; then
install -D -m 0644 $BINARIES_DIR/$UBOOT_BINARY \
$TARGET_DIR/u-boot.$UBOOT_DEFCONFIG
$HOST_DIR/bin/mkimage -A $MKIMAGE_ARCH -O linux -T script -C none -a 0 -e 0 \
-n "upgrade script" -d $BOARD_DIR/upgrade.cmd $TARGET_DIR/upgrade.scr
fi
board/boundarydevices/common/post-image.sh
Executable
+5
View File
@@ -0,0 +1,5 @@
#!/bin/sh
support/scripts/genimage.sh -c $(dirname $0)/genimage.cfg
exit $?
board/boundarydevices/common/readme.txt
+51
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@@ -0,0 +1,51 @@
Buildroot for Boundary Devices platforms:
https://boundarydevices.com/nitrogen-sbcs-and-soms/
Here is the list of targeted platforms per defconfig:
- nitrogen6x_defconfig
- BD-SL-i.MX6 (SABRE-Lite)
- Nitrogen6X
- Nitrogen6_Lite
- Nitrogen6_MAX
- Nitrogen6_VM
- Nitrogen6_SOM
- Nitrogen6_SOMv2
- nitrogen6sx_defconfig
- Nitrogen6_SoloX
- nitrogen7_defconfig
- Nitrogen7
- nitrogen8m_defconfig
- Nitrogen8M
- Nitrogen8M_SOM
- nitrogen8mm_defconfig
- Nitrogen8MMini
- Nitrogen8MMini_SOM
- nitrogen8mn_defconfig
- Nitrogen8MNano
- Nitrogen8MNano_SOM
- nitrogen8mp_defconfig
- Nitrogen8MPlus_SOM
To install, simply copy the image to your storage (SD, eMMC, USB):
$ sudo dd if=output/images/sdcard.img of=/dev/sdX
Where 'sdX' is the device node of the uSD partition.
To upgrade u-boot, cancel autoboot and type:
> run upgradeu
See Boundary Devices's buildroot-external-boundary project
for additional and advanced defconfigs using Qt5, gstreamer,
NXP proprietary packages with demo applications:
https://github.com/boundarydevices/buildroot-external-boundary
board/boundarydevices/common/upgrade.cmd
+230
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@@ -0,0 +1,230 @@
if itest.s a$uboot_defconfig == a; then
echo "Please set uboot_defconfig to the appropriate value"
exit
fi
offset=0x400
erase_size=0xC0000
qspi_offset=0x0
a_base=0x12000000
block_size=0x200
#grab 1st 2/3 characters of string
setexpr cpu2 sub "^(..?).*" "\\1" "${imx_cpu}"
setexpr cpu3 sub "^(..?.?).*" "\\1" "${imx_cpu}"
if itest.s x51 == "x${cpu2}"; then
a_base=0x92000000
elif itest.s x53 == "x${cpu2}"; then
a_base=0x72000000
elif itest.s x6SX == "x${cpu3}" || itest.s x6U == "x${cpu2}" || itest.s x7D == "x${cpu2}"; then
a_base=0x82000000
elif itest.s x8M == "x${cpu2}"; then
a_base=0x42000000
offset=0x8400
if itest.s x8MN == "x${cpu3}" || itest.s x8MP == "x${cpu3}"; then
offset=0x8000
if itest ${env_part} != 0 ; then
offset=0x0
fi
fi
fi
qspi_match=1
setexpr a_qspi1 ${a_base}
setexpr a_qspi2 ${a_qspi1} + 0x400000
setexpr a_uImage1 ${a_qspi1} + 0x400
setexpr a_uImage2 ${a_qspi2} + 0x400
setexpr a_script ${a_base}
if itest.s "x${vidconsole}" == "x" ; then
vidconsole=vga
fi
setenv stdout serial,${vidconsole}
if itest.s "x${sfname}" == "x" ; then
# U-Boot resides in (e)MMC
if itest.s "x${env_dev}" == "x" || itest.s "x${env_part}" == "x"; then
echo "Please set env_dev/part to the appropriate values"
exit
fi
# Load bootloader binary for this board
if ${fs}load ${devtype} ${devnum}:${distro_bootpart} ${a_uImage1} u-boot.$uboot_defconfig ; then
else
echo "File u-boot.$uboot_defconfig not found on SD card" ;
exit
fi
# Compute block count for filesize and offset
setexpr cntoffset ${offset} / ${block_size}
setexpr cntfile ${filesize} / ${block_size}
# Add 1 in case the $filesize is not a multiple of $block_size
setexpr cntfile ${cntfile} + 1
# Select media partition (if different from main partition)
mmc dev ${env_dev} ${env_part}
# Read and compare current U-Boot
mmc read ${a_uImage2} ${cntoffset} ${cntfile}
if cmp.b ${a_uImage1} ${a_uImage2} ${filesize} ; then
echo "------- U-Boot versions match" ;
echo "------- U-Boot upgrade NOT needed" ;
exit ;
fi
echo "Need U-Boot upgrade" ;
echo "Program in 5 seconds" ;
for n in 5 4 3 2 1 ; do
echo $n ;
sleep 1 ;
done
mmc write ${a_uImage1} ${cntoffset} ${cntfile}
# Make sure to boot from the proper partition
if itest ${env_part} != 0 ; then
mmc partconf ${env_dev} 1 ${env_part} 0
fi
# Switch back to main eMMC partition (to avoid confusion)
mmc dev ${env_dev}
else
# U-Boot resides in NOR flash
if sf probe || sf probe || sf probe 1 27000000 || sf probe 1 27000000 ; then
echo "probed SPI ROM" ;
else
echo "Error initializing EEPROM"
exit
fi
if itest.s "x${sfname}" == "xat45db041d" ; then
erase_size=0x7e000
fi
if itest.s x7D == "x${imx_cpu}"; then
echo "check qspi parameter block" ;
if ${fs}load ${devtype} ${devnum}:${distro_bootpart} ${a_qspi1} qspi-${sfname}.${uboot_defconfig} ; then
else
echo "parameter file qspi-${sfname}.${uboot_defconfig} not found on SD card"
exit
fi
if itest ${filesize} != 0x200 ; then
echo "------- qspi-${sfname}.${uboot_defconfig} 0x${filesize} != 0x200 bytes" ;
exit
fi
setexpr a_marker ${a_qspi1} + 0x1fc
if itest *${a_marker} != c0ffee01 ; then
echo "------- qspi-${sfname}.${uboot_defconfig} c0ffee01 marker missing" ;
exit
fi
if sf read ${a_qspi2} ${qspi_offset} 0x200 ; then
else
echo "Error reading qspi parameter from EEPROM"
exit
fi
if cmp.b ${a_qspi1} ${a_qspi2} 0x200 ; then
echo "------- qspi parameters match"
else
echo "------- qspi parameters mismatch"
qspi_match=0
fi
fi
echo "check U-Boot" ;
if ${fs}load ${devtype} ${devnum}:${distro_bootpart} ${a_uImage1} u-boot.$uboot_defconfig ; then
else
echo "File u-boot.$uboot_defconfig not found on SD card" ;
exit
fi
echo "read $filesize bytes from SD card" ;
if sf read ${a_uImage2} $offset $filesize ; then
else
echo "Error reading boot loader from EEPROM" ;
exit
fi
if cmp.b ${a_uImage1} ${a_uImage2} $filesize ; then
echo "------- U-Boot versions match" ;
if itest.s "${qspi_match}" == "1" ; then
echo "------- U-Boot upgrade NOT needed" ;
if itest.s "x" != "x${next}" ; then
if ${fs}load ${devtype} ${devnum}:${distro_bootpart} ${a_script} ${next} ; then
source ${a_script}
else
echo "${next} not found on SD card"
fi
fi
exit
fi
erase_size=0x1000
if itest.s xMX25L6405D == "x${sfname}"; then
erase_size=0x10000
fi
setexpr filesize ${erase_size} - ${offset}
fi
echo "Need U-Boot upgrade" ;
echo "Program in 5 seconds" ;
for n in 5 4 3 2 1 ; do
echo $n ;
sleep 1 ;
done
echo "erasing" ;
sf erase 0 ${erase_size} ;
# two steps to prevent bricking
echo "programming" ;
setexpr a1 ${a_uImage1} + 0x400
setexpr o1 ${offset} + 0x400
setexpr s1 ${filesize} - 0x400
sf write ${a1} ${o1} ${s1} ;
sf write ${a_uImage1} $offset 0x400 ;
if itest.s x7D == "x${imx_cpu}"; then
sf write ${a_qspi1} ${qspi_offset} 0x200
fi
echo "verifying" ;
if sf read ${a_uImage2} $offset $filesize ; then
else
echo "Error re-reading EEPROM" ;
exit
fi
if cmp.b ${a_uImage1} ${a_uImage2} $filesize ; then
else
echo "Read verification error" ;
exit
fi
if itest.s x7D == "x${imx_cpu}"; then
if sf read ${a_qspi2} ${qspi_offset} 0x200 ; then
else
echo "Error re-reading qspi" ;
exit
fi
if cmp.b ${a_qspi1} ${a_qspi2} 0x200 ; then
else
echo "qspi parameter block verification error" ;
exit
fi
fi
if itest.s "x" != "x${next}" ; then
if ${fs}load ${devtype} ${devnum}:${distro_bootpart} ${a_script} ${next} ; then
source ${a_script}
else
echo "${next} not found on ${devtype} ${devnum}:${distro_bootpart}"
fi
fi
fi
if itest.s "xno" == "x${reset}" ; then
while echo "---- U-Boot upgraded. Please reset the board" ; do
sleep 120
done
fi
echo "---- U-Boot upgraded. The board will now reset."
sleep 1
reset
done
board/chromebook/elm/kernel.args
+1
View File
@@ -0,0 +1 @@
root=PARTUUID=%U/PARTNROFF=1 rootwait rw noinitrd kern_guid=%U console=tty0
board/chromebook/elm/kernel.its
+38
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@@ -0,0 +1,38 @@
/dts-v1/;
/ {
description = "Chrome OS kernel image with FDT";
#address-cells = <1>;
images {
kernel-1 {
data = /incbin/("Image");
type = "kernel_noload";
arch = "arm64";
os = "linux";
compression = "none";
load = <0>;
entry = <0>;
};
fdt-1 {
description = "mt8173-elm.dtb";
data = /incbin/("mt8173-elm.dtb");
type = "flat_dt";
arch = "arm64";
compression = "none";
hash-1 {
algo = "sha1";
};
};
};
configurations {
default = "conf-1";
conf-1 {
kernel = "kernel-1";
fdt = "fdt-1";
};
};
};
board/chromebook/elm/linux.config
+477
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@@ -0,0 +1,477 @@
CONFIG_SYSVIPC=y
CONFIG_NO_HZ_IDLE=y
CONFIG_HIGH_RES_TIMERS=y
CONFIG_PREEMPT=y
CONFIG_IRQ_TIME_ACCOUNTING=y
CONFIG_BSD_PROCESS_ACCT=y
CONFIG_BSD_PROCESS_ACCT_V3=y
CONFIG_IKCONFIG=y
CONFIG_IKCONFIG_PROC=y
CONFIG_NUMA_BALANCING=y
CONFIG_MEMCG=y
CONFIG_BLK_CGROUP=y
CONFIG_CGROUP_PIDS=y
CONFIG_CGROUP_HUGETLB=y
CONFIG_CPUSETS=y
CONFIG_CGROUP_DEVICE=y
CONFIG_CGROUP_CPUACCT=y
CONFIG_CGROUP_PERF=y
CONFIG_USER_NS=y
CONFIG_SCHED_AUTOGROUP=y
CONFIG_RELAY=y
CONFIG_BLK_DEV_INITRD=y
CONFIG_KALLSYMS_ALL=y
# CONFIG_COMPAT_BRK is not set
CONFIG_SLAB=y
CONFIG_PROFILING=y
CONFIG_ARCH_MEDIATEK=y
CONFIG_ARM64_VA_BITS_48=y
CONFIG_SCHED_MC=y
CONFIG_SCHED_SMT=y
CONFIG_NR_CPUS=4
CONFIG_NUMA=y
CONFIG_PARAVIRT=y
CONFIG_CRASH_DUMP=y
CONFIG_COMPAT=y
CONFIG_RANDOMIZE_BASE=y
# CONFIG_EFI is not set
# CONFIG_SUSPEND is not set
CONFIG_PM=y
CONFIG_PM_DEBUG=y
CONFIG_PM_ADVANCED_DEBUG=y
CONFIG_CPU_IDLE=y
CONFIG_CPU_IDLE_GOV_LADDER=y
CONFIG_ARM_CPUIDLE=y
CONFIG_ARM_PSCI_CPUIDLE=y
CONFIG_CPU_FREQ=y
CONFIG_CPU_FREQ_STAT=y
CONFIG_CPU_FREQ_DEFAULT_GOV_PERFORMANCE=y
CONFIG_CPU_FREQ_GOV_POWERSAVE=y
CONFIG_CPU_FREQ_GOV_USERSPACE=y
CONFIG_CPU_FREQ_GOV_ONDEMAND=y
CONFIG_CPU_FREQ_GOV_CONSERVATIVE=y
CONFIG_CPU_FREQ_GOV_SCHEDUTIL=y
CONFIG_CPUFREQ_DT=y
CONFIG_ARM_SCPI_CPUFREQ=y
CONFIG_ARM_MEDIATEK_CPUFREQ=y
CONFIG_ARM_SCPI_PROTOCOL=y
CONFIG_JUMP_LABEL=y
CONFIG_MODULES=y
CONFIG_MODULE_UNLOAD=y
# CONFIG_BLK_DEBUG_FS is not set
# CONFIG_MQ_IOSCHED_KYBER is not set
# CONFIG_CORE_DUMP_DEFAULT_ELF_HEADERS is not set
CONFIG_KSM=y
CONFIG_MEMORY_FAILURE=y
CONFIG_TRANSPARENT_HUGEPAGE=y
CONFIG_CMA=y
CONFIG_NET=y
CONFIG_PACKET=y
CONFIG_UNIX=y
CONFIG_UNIX_DIAG=y
CONFIG_INET=y
CONFIG_IP_MULTICAST=y
CONFIG_INET_UDP_DIAG=y
# CONFIG_IPV6 is not set
CONFIG_CFG80211=y
# CONFIG_CFG80211_DEFAULT_PS is not set
CONFIG_MAC80211=y
CONFIG_DEVTMPFS=y
CONFIG_DEVTMPFS_MOUNT=y
CONFIG_FW_LOADER_USER_HELPER=y
CONFIG_FW_LOADER_USER_HELPER_FALLBACK=y
CONFIG_BRCMSTB_GISB_ARB=y
CONFIG_VEXPRESS_CONFIG=y
CONFIG_MTD=y
CONFIG_MTD_BLOCK=y
CONFIG_MTD_CFI=y
CONFIG_MTD_CFI_ADV_OPTIONS=y
CONFIG_MTD_CFI_INTELEXT=y
CONFIG_MTD_CFI_AMDSTD=y
CONFIG_MTD_CFI_STAA=y
CONFIG_MTD_PHYSMAP=y
CONFIG_MTD_PHYSMAP_OF=y
CONFIG_MTD_DATAFLASH=y
CONFIG_MTD_SST25L=y
CONFIG_MTD_RAW_NAND=y
CONFIG_MTD_NAND_DENALI_DT=y
CONFIG_MTD_SPI_NOR=y
CONFIG_OF_OVERLAY=y
# CONFIG_BLK_DEV is not set
CONFIG_SRAM=y
CONFIG_EEPROM_AT24=m
CONFIG_EEPROM_AT25=m
CONFIG_RAID_ATTRS=m
CONFIG_SCSI=y
# CONFIG_SCSI_PROC_FS is not set
CONFIG_BLK_DEV_SD=y
CONFIG_SCSI_SAS_LIBSAS=y
CONFIG_SCSI_UFSHCD=y
CONFIG_SCSI_UFSHCD_PLATFORM=y
CONFIG_MD=y
CONFIG_BLK_DEV_MD=m
CONFIG_BLK_DEV_DM=m
CONFIG_DM_MIRROR=m
CONFIG_DM_ZERO=m
CONFIG_NETDEVICES=y
# CONFIG_ETHERNET is not set
CONFIG_PHYLIB=y
CONFIG_USB_CATC=m
CONFIG_USB_KAWETH=m
CONFIG_USB_PEGASUS=m
CONFIG_USB_RTL8150=m
CONFIG_USB_RTL8152=m
CONFIG_USB_LAN78XX=m
CONFIG_USB_USBNET=m
CONFIG_USB_NET_CDC_EEM=m
CONFIG_USB_NET_HUAWEI_CDC_NCM=m
CONFIG_USB_NET_CDC_MBIM=m
CONFIG_USB_NET_DM9601=m
CONFIG_USB_NET_SR9700=m
CONFIG_USB_NET_SR9800=m
CONFIG_USB_NET_SMSC75XX=m
CONFIG_USB_NET_SMSC95XX=m
CONFIG_USB_NET_GL620A=m
CONFIG_USB_NET_PLUSB=m
CONFIG_USB_NET_MCS7830=m
CONFIG_USB_NET_RNDIS_HOST=m
CONFIG_USB_ALI_M5632=y
CONFIG_USB_AN2720=y
CONFIG_USB_EPSON2888=y
CONFIG_USB_KC2190=y
CONFIG_USB_NET_CX82310_ETH=m
CONFIG_USB_NET_KALMIA=m
CONFIG_USB_NET_QMI_WWAN=m
CONFIG_USB_NET_INT51X1=m
CONFIG_USB_IPHETH=m
CONFIG_USB_SIERRA_NET=m
CONFIG_USB_VL600=m
CONFIG_USB_NET_CH9200=m
CONFIG_USB_NET_AQC111=m
# CONFIG_WLAN_VENDOR_ADMTEK is not set
# CONFIG_WLAN_VENDOR_ATH is not set
# CONFIG_WLAN_VENDOR_ATMEL is not set
# CONFIG_WLAN_VENDOR_BROADCOM is not set
# CONFIG_WLAN_VENDOR_CISCO is not set
# CONFIG_WLAN_VENDOR_INTEL is not set
# CONFIG_WLAN_VENDOR_INTERSIL is not set
CONFIG_MWIFIEX=m
CONFIG_MWIFIEX_SDIO=m
# CONFIG_WLAN_VENDOR_MEDIATEK is not set
# CONFIG_WLAN_VENDOR_RALINK is not set
# CONFIG_WLAN_VENDOR_REALTEK is not set
# CONFIG_WLAN_VENDOR_RSI is not set
# CONFIG_WLAN_VENDOR_ST is not set
# CONFIG_WLAN_VENDOR_TI is not set
# CONFIG_WLAN_VENDOR_ZYDAS is not set
# CONFIG_WLAN_VENDOR_QUANTENNA is not set
CONFIG_INPUT_EVDEV=y
CONFIG_KEYBOARD_ADC=m
CONFIG_KEYBOARD_GPIO=y
CONFIG_KEYBOARD_CROS_EC=y
CONFIG_MOUSE_ELAN_I2C=y
CONFIG_INPUT_TOUCHSCREEN=y
CONFIG_TOUCHSCREEN_ATMEL_MXT=m
CONFIG_TOUCHSCREEN_ELAN=y
CONFIG_INPUT_MISC=y
# CONFIG_SERIO_SERPORT is not set
CONFIG_SERIO_AMBAKMI=y
CONFIG_LEGACY_PTY_COUNT=16
CONFIG_SERIAL_8250=y
CONFIG_SERIAL_8250_CONSOLE=y
CONFIG_SERIAL_8250_EXTENDED=y
CONFIG_SERIAL_8250_SHARE_IRQ=y
CONFIG_SERIAL_8250_DW=y
CONFIG_SERIAL_8250_MT6577=y
CONFIG_SERIAL_OF_PLATFORM=y
CONFIG_SERIAL_AMBA_PL011=y
CONFIG_SERIAL_AMBA_PL011_CONSOLE=y
CONFIG_SERIAL_XILINX_PS_UART=y
CONFIG_SERIAL_XILINX_PS_UART_CONSOLE=y
CONFIG_SERIAL_FSL_LPUART=y
CONFIG_SERIAL_FSL_LPUART_CONSOLE=y
CONFIG_SERIAL_FSL_LINFLEXUART=y
CONFIG_SERIAL_FSL_LINFLEXUART_CONSOLE=y
CONFIG_SERIAL_DEV_BUS=y
CONFIG_VIRTIO_CONSOLE=y
CONFIG_IPMI_HANDLER=m
CONFIG_IPMI_DEVICE_INTERFACE=m
CONFIG_IPMI_SI=m
CONFIG_TCG_TPM=y
CONFIG_TCG_TIS_I2C_INFINEON=y
CONFIG_I2C_CHARDEV=y
CONFIG_I2C_MUX_PCA954x=y
CONFIG_I2C_DESIGNWARE_PLATFORM=y
CONFIG_I2C_GPIO=m
CONFIG_I2C_MT65XX=y
CONFIG_I2C_RK3X=y
CONFIG_I2C_SLAVE=y
CONFIG_SPI=y
CONFIG_SPI_CADENCE_QUADSPI=y
CONFIG_SPI_NXP_FLEXSPI=y
CONFIG_SPI_GPIO=y
CONFIG_SPI_MT65XX=y
CONFIG_SPI_PL022=y
CONFIG_SPI_ROCKCHIP=y
CONFIG_SPI_SPIDEV=y
CONFIG_PINCTRL_SINGLE=y
CONFIG_PINCTRL_MAX77620=y
CONFIG_GPIO_ALTERA=m
CONFIG_GPIO_DWAPB=y
CONFIG_GPIO_MB86S7X=y
CONFIG_GPIO_PL061=y
CONFIG_GPIO_XGENE=y
CONFIG_GPIO_MAX732X=y
CONFIG_GPIO_PCA953X=y
CONFIG_GPIO_PCA953X_IRQ=y
CONFIG_GPIO_BD9571MWV=m
CONFIG_GPIO_MAX77620=y
CONFIG_POWER_RESET_BRCMSTB=y
CONFIG_POWER_RESET_XGENE=y
CONFIG_POWER_RESET_SYSCON=y
CONFIG_SYSCON_REBOOT_MODE=y
CONFIG_BATTERY_SBS=m
CONFIG_BATTERY_BQ27XXX=y
CONFIG_SENSORS_ARM_SCPI=y
CONFIG_SENSORS_LM90=m
CONFIG_SENSORS_PWM_FAN=m
CONFIG_SENSORS_INA2XX=m
CONFIG_SENSORS_INA3221=m
CONFIG_THERMAL=y
CONFIG_CPU_THERMAL=y
CONFIG_DEVFREQ_THERMAL=y
CONFIG_THERMAL_EMULATION=y
CONFIG_WATCHDOG=y
CONFIG_MEDIATEK_WATCHDOG=y
CONFIG_MFD_BD9571MWV=y
CONFIG_MFD_AXP20X_I2C=y
CONFIG_MFD_HI6421_PMIC=y
CONFIG_MFD_MAX77620=y
CONFIG_MFD_MT6397=y
CONFIG_MFD_RK808=y
CONFIG_MFD_SEC_CORE=y
CONFIG_MFD_ROHM_BD718XX=y
CONFIG_REGULATOR_DEBUG=y
CONFIG_REGULATOR_FIXED_VOLTAGE=y
CONFIG_REGULATOR_AXP20X=y
CONFIG_REGULATOR_BD718XX=y
CONFIG_REGULATOR_BD9571MWV=y
CONFIG_REGULATOR_DA9211=y
CONFIG_REGULATOR_FAN53555=y
CONFIG_REGULATOR_GPIO=y
CONFIG_REGULATOR_HI6421V530=y
CONFIG_REGULATOR_MAX77620=y
CONFIG_REGULATOR_MAX8973=y
CONFIG_REGULATOR_MT6397=y
CONFIG_REGULATOR_PFUZE100=y
CONFIG_REGULATOR_PWM=y
CONFIG_REGULATOR_RK808=y
CONFIG_REGULATOR_S2MPS11=y
CONFIG_REGULATOR_VCTRL=m
CONFIG_MEDIA_SUPPORT=y
CONFIG_MEDIA_CAMERA_SUPPORT=y
CONFIG_MEDIA_ANALOG_TV_SUPPORT=y
CONFIG_MEDIA_DIGITAL_TV_SUPPORT=y
CONFIG_MEDIA_SDR_SUPPORT=y
CONFIG_VIDEO_V4L2_SUBDEV_API=y
CONFIG_MEDIA_USB_SUPPORT=y
CONFIG_USB_VIDEO_CLASS=m
CONFIG_DRM=y
CONFIG_DRM_I2C_CH7006=m
CONFIG_DRM_I2C_SIL164=m
CONFIG_DRM_I2C_NXP_TDA998X=m
CONFIG_DRM_MALI_DISPLAY=m
CONFIG_DRM_PANEL_LVDS=m
CONFIG_DRM_PANEL_SIMPLE=y
CONFIG_DRM_PANEL_TRULY_NT35597_WQXGA=m
CONFIG_DRM_DISPLAY_CONNECTOR=y
CONFIG_DRM_PARADE_PS8640=y
CONFIG_DRM_SII902X=m
CONFIG_DRM_THINE_THC63LVD1024=m
CONFIG_DRM_TI_SN65DSI86=m
CONFIG_DRM_ANALOGIX_ANX78XX=y
CONFIG_DRM_I2C_ADV7511=m
CONFIG_DRM_MEDIATEK=y
CONFIG_DRM_MEDIATEK_HDMI=y
CONFIG_FB_MODE_HELPERS=y
CONFIG_FB_SIMPLE=y
CONFIG_BACKLIGHT_CLASS_DEVICE=y
CONFIG_BACKLIGHT_PWM=y
CONFIG_BACKLIGHT_LP855X=y
CONFIG_SOUND=y
CONFIG_SND=y
CONFIG_SND_SOC=y
CONFIG_SND_SOC_MT8173=y
CONFIG_SND_SOC_MT8173_RT5650_RT5676=y
CONFIG_I2C_HID=m
CONFIG_USB_CONN_GPIO=y
CONFIG_USB=y
CONFIG_USB_XHCI_HCD=y
CONFIG_USB_EHCI_HCD=y
CONFIG_USB_EHCI_HCD_PLATFORM=y
CONFIG_USB_OHCI_HCD=y
CONFIG_USB_OHCI_HCD_PLATFORM=y
CONFIG_USB_STORAGE=y
CONFIG_USB_MTU3=y
CONFIG_USB_MUSB_HDRC=y
CONFIG_USB_DWC3=y
CONFIG_USB_DWC2=y
CONFIG_USB_CHIPIDEA=y
CONFIG_USB_CHIPIDEA_UDC=y
CONFIG_USB_CHIPIDEA_HOST=y
CONFIG_USB_ISP1760=y
CONFIG_USB_SERIAL=y
CONFIG_USB_SERIAL_CONSOLE=y
CONFIG_USB_SERIAL_PL2303=y
CONFIG_USB_HSIC_USB3503=y
CONFIG_NOP_USB_XCEIV=y
CONFIG_USB_ULPI=y
CONFIG_USB_GADGET=y
CONFIG_USB_SNP_UDC_PLAT=y
CONFIG_USB_BDC_UDC=y
CONFIG_USB_ETH=m
CONFIG_USB_ETH_EEM=y
CONFIG_TYPEC=m
CONFIG_TYPEC_TCPM=m
CONFIG_TYPEC_FUSB302=m
CONFIG_MMC=y
CONFIG_MMC_BLOCK_MINORS=32
CONFIG_MMC_ARMMMCI=y
CONFIG_MMC_SDHCI=y
CONFIG_MMC_SDHCI_PLTFM=y
CONFIG_MMC_SDHCI_OF_ARASAN=y
CONFIG_MMC_SDHCI_CADENCE=y
CONFIG_MMC_SDHCI_F_SDH30=y
CONFIG_MMC_SPI=y
CONFIG_MMC_DW=y
CONFIG_MMC_DW_EXYNOS=y
CONFIG_MMC_DW_HI3798CV200=y
CONFIG_MMC_DW_K3=y
CONFIG_MMC_MTK=y
CONFIG_MMC_SDHCI_XENON=y
CONFIG_NEW_LEDS=y
CONFIG_LEDS_CLASS=y
CONFIG_LEDS_GPIO=y
CONFIG_LEDS_PWM=y
CONFIG_LEDS_SYSCON=y
CONFIG_LEDS_TRIGGERS=y
CONFIG_LEDS_TRIGGER_TIMER=y
CONFIG_LEDS_TRIGGER_HEARTBEAT=y
CONFIG_LEDS_TRIGGER_CPU=y
CONFIG_LEDS_TRIGGER_DEFAULT_ON=y
CONFIG_LEDS_TRIGGER_PANIC=y
CONFIG_RTC_CLASS=y
CONFIG_RTC_DRV_DS1307=m
CONFIG_RTC_DRV_MAX77686=y
CONFIG_RTC_DRV_RK808=m
CONFIG_RTC_DRV_PCF85363=m
CONFIG_RTC_DRV_RX8581=m
CONFIG_RTC_DRV_S5M=y
CONFIG_RTC_DRV_DS3232=y
CONFIG_RTC_DRV_PCF2127=m
CONFIG_RTC_DRV_PL031=y
CONFIG_DMADEVICES=y
CONFIG_FSL_EDMA=y
CONFIG_MV_XOR_V2=y
CONFIG_PL330_DMA=y
CONFIG_MTK_CQDMA=y
CONFIG_QCOM_HIDMA_MGMT=y
CONFIG_QCOM_HIDMA=y
# CONFIG_VIRTIO_MENU is not set
CONFIG_CHROME_PLATFORMS=y
CONFIG_CROS_EC=y
CONFIG_CROS_EC_I2C=y
CONFIG_CROS_EC_SPI=y
CONFIG_COMMON_CLK_RK808=y
CONFIG_COMMON_CLK_SCPI=y
CONFIG_COMMON_CLK_CS2000_CP=y
CONFIG_COMMON_CLK_S2MPS11=y
CONFIG_COMMON_CLK_XGENE=y
CONFIG_COMMON_CLK_PWM=y
CONFIG_COMMON_CLK_VC5=y
CONFIG_COMMON_CLK_MT6797_MMSYS=y
CONFIG_COMMON_CLK_MT6797_IMGSYS=y
CONFIG_COMMON_CLK_MT6797_VDECSYS=y
CONFIG_COMMON_CLK_MT6797_VENCSYS=y
CONFIG_HWSPINLOCK=y
CONFIG_ARM_MHU=y
CONFIG_PLATFORM_MHU=y
CONFIG_ARM_SMMU=y
CONFIG_ARM_SMMU_V3=y
CONFIG_MTK_IOMMU=y
CONFIG_REMOTEPROC=y
CONFIG_MTK_CMDQ=y
CONFIG_MTK_PMIC_WRAP=y
CONFIG_EXTCON_USB_GPIO=y
CONFIG_IIO=y
CONFIG_MAX9611=m
CONFIG_SENSORS_ISL29018=m
CONFIG_MPL3115=m
CONFIG_PWM=y
CONFIG_PWM_MTK_DISP=y
CONFIG_PWM_MEDIATEK=y
CONFIG_PHY_XGENE=y
CONFIG_PHY_FSL_IMX8MQ_USB=y
CONFIG_PHY_MTK_TPHY=y
CONFIG_PHY_QCOM_USB_HS=y
CONFIG_PHY_SAMSUNG_USB2=y
CONFIG_EXT2_FS=y
CONFIG_EXT3_FS=y
CONFIG_EXT4_FS_POSIX_ACL=y
CONFIG_FANOTIFY=y
CONFIG_FANOTIFY_ACCESS_PERMISSIONS=y
CONFIG_QUOTA=y
CONFIG_AUTOFS4_FS=y
CONFIG_FUSE_FS=m
CONFIG_CUSE=m
CONFIG_OVERLAY_FS=y
CONFIG_OVERLAY_FS_INDEX=y
CONFIG_OVERLAY_FS_XINO_AUTO=y
CONFIG_OVERLAY_FS_METACOPY=y
CONFIG_VFAT_FS=y
CONFIG_TMPFS=y
CONFIG_TMPFS_POSIX_ACL=y
CONFIG_HUGETLBFS=y
CONFIG_CONFIGFS_FS=y
CONFIG_PSTORE=y
CONFIG_NFS_FS=m
CONFIG_NFS_V3_ACL=y
CONFIG_NFS_V4=m
CONFIG_NFS_SWAP=y
CONFIG_CIFS=m
CONFIG_CIFS_STATS2=y
CONFIG_CIFS_WEAK_PW_HASH=y
CONFIG_NLS_CODEPAGE_437=y
CONFIG_NLS_ISO8859_1=y
CONFIG_SECURITY=y
CONFIG_CRYPTO_CRYPTD=y
CONFIG_CRYPTO_DH=m
CONFIG_CRYPTO_ECDH=m
CONFIG_CRYPTO_SEQIV=y
CONFIG_CRYPTO_ECHAINIV=y
CONFIG_CRYPTO_CBC=y
CONFIG_CRYPTO_ECB=y
CONFIG_CRYPTO_XXHASH=m
CONFIG_CRYPTO_SHA1=y
CONFIG_CRYPTO_SHA3=m
CONFIG_CRYPTO_DES=m
CONFIG_CRYPTO_ANSI_CPRNG=y
CONFIG_CRYPTO_DEV_CCREE=m
CONFIG_PACKING=y
CONFIG_INDIRECT_PIO=y
CONFIG_CRC_CCITT=m
CONFIG_CRC_T10DIF=y
CONFIG_LIBCRC32C=m
CONFIG_DMA_CMA=y
CONFIG_CMA_SIZE_MBYTES=32
CONFIG_IRQ_POLL=y
CONFIG_PRINTK_TIME=y
CONFIG_DEBUG_INFO=y
CONFIG_MAGIC_SYSRQ=y
CONFIG_DEBUG_FS=y
CONFIG_DEBUG_KERNEL=y
# CONFIG_SCHED_DEBUG is not set
# CONFIG_DEBUG_PREEMPT is not set
CONFIG_STACKTRACE=y
# CONFIG_FTRACE is not set
# CONFIG_STRICT_DEVMEM is not set

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